DOI: 10.3897/asp.84.e162254

Authors: Alberto Sánchez-Vialas, Arnau Calatayud-Mascarell, José L. Ruiz, Ernesto Recuero, Mario García-París

Abstract: Abstract The evolutionary dynamics of morphological traits can often blur the boundaries between interspecific divergence and intraspecific variability, complicating species recognition. This study investigates the variation in secondary sexual traits and the existence of potential speciation processes within what is now considered Berberomeloe insignis (Coleoptera: Meloidae), an endangered blister beetle taxon endemic to southeastern Spain. Despite previous evidence of substantial genetic and phenotypic differentiation, key characters as the morphological variation in secondary sexual traits, such as antennomeres, remain unexplored. Using geometric morphometrics, we analyzed the shape variation of male and female antennomeres VII–XI across all previously recognized lineages of B. insignis. Our results reveal significant morphological differentiation, particularly in antennomeres VII, IX, and XI, which correlate broadly with genetic lineages. Based on the study of newly recorded populations, we confirm that cephalic coloration patterns correspond with mitochondrial lineages, further supporting the existence of geographic lineage differentiation within what was previously considered B. insignis. Climatic niche modeling indicates low climatic niche overlap between the isolated western lineage and the remaining lineages, which also show relatively low to moderate overlap, suggesting that ecological factors could have contributed to the divergence among them. These findings underscore the intricate interplay of genetics and ecology, highlighting the importance of integrating multiple data sources for accurate species delimitation. Based on our results, we describe B. nazari sp. nov. and B. insignis trisanguinatus ssp. nov. reflecting the evolutionary history of this group.

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DOI: 10.3897/asp.84.e179328

Authors: José Ricardo Assmann Lemes, Ricardo Russo Siewert, Olaf Hermann Hendrik Mielke, Mirna Martins Casagrande, Andrew David Warren

Abstract: The taxonomy of the subgenus Staphylus (Capilla) is reviewed, including redescriptions of known species, identification keys, and detailed distribution maps. The female genitalia of Staphylus (Capilla) azteca (Scudder, 1872), S. (C.) caribbea (Williams & Bell, 1940), S. (C.) corumba (Williams & Bell, 1940), S. (C.) eryx Evans, 1953, S. (C.) tucumanus (Plötz, 1884) and S. (C.) tyro (Mabille, 1878) are described and illustrated for the first time. Four new species are described: Staphylus (Capilla) nicoleae Lemes sp. nov. from Colombia and Venezuela, S. (C.) ricardoi Lemes, sp. nov. from Peru, S. (C.) neideae Lemes sp. nov. and S. (C.) neivae sp. nov. from Brazil. Pholisora imperspicua Hayward, 1940 is a syn. nov. of Staphylus (C.) lizeri lizeri (Hayward, 1938) and Hesperia melangon epicaste Mabille, 1903 is a syn. nov. of Staphylus (C.) melangon melangon (Mabille, 1883). Neotypes are designated for Staphylus epicaste Mabille, 1903, Nisoniades tucumanus Plötz, 1884 and Staphylus fascia Hayward, 1933. Lectotypes are designated for Pholisora azteca Scudder, 1872, Bolla machuca Schaus, 1913, Helias tyro Mabille, 1878, Staphylus anginus Schaus, 1902, Hesperia melangon 1883, Hesperia musculus Burmeister, 1875 and Helias aurocapilla Staudinger, 1876.

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DOI: 10.3897/asp.84.e174748

Authors: Guanliang Meng, Leonardo S. Carvalho, Lars Podsiadlowski, Bernhard A. Huber

Abstract: Pholcid spiders have long been classified into five subfamilies, and this framework ultimately dates back to Eugène Simon’s non-phylogenetic system of 1893. While subfamily relationships and compositions have been updated extensively over the last decades, no new subfamily had to be erected for any of the hundreds of new species newly described since Simon. Here we report two new species from semi-arid Brazilian Caatinga: Caipira mineira Huber sp. nov., and Caipira baiana Huber sp. nov. Genomic data strongly support their sister-group relationship; we thus join them conservatively in a single genus, Caipira Huber gen. nov., even though they show some remarkable morphological differences. This genus is sister to a large clade including all pholcid subfamilies except Pholcinae and Smeringopinae, which necessitates the erection of a new subfamily: Caipirinae subfam. nov. In addition, we formalize the separation of the genus Artema from ‘other Arteminae’. This had previously been suggested by multi-locus genetic data, and is strongly supported by new genomic data. Arteminae is newly circumscribed to include only Artema and Priscula, and the name Physocyclinae subfam. nov. is proposed for ‘other Arteminae’. Pholcidae is thus divided into seven subfamilies, with the following relationships suggested by genomic data: (Pholcinae, Smeringopinae), (Caipirinae, ((Arteminae, Ninetinae), (Physocyclinae, Modisiminae))). Finally, we tested the hypothesis that the Chilean genus Aucana is the closest relative of the new Brazilian species. This is strongly rejected; Aucana is resolved as the only known South American representative of Physocyclinae.

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DOI: 10.3897/asp.84.e153168

Authors: Xu-Hong-Yi Zheng, Yong Qin, Zhi-Teng Chen

Abstract: The genus Hexarthrius Hope, 1842, a prominent member of the family Lucanidae, is widely distributed across southern Asia and includes some of the largest stag beetle species in the world. This study presents the first mitogenomic phylogeny for Hexarthrius and its related genera, using complete mitogenomes from all recognized Hexarthrius species and representatives of all known related genera; 23 mitogenomes are reported here for the first time. We identified two novel mitochondrial gene rearrangements in Hexarthrius and its relative genus Rhaetulus Westwood, 1871, with implications for mitogenome evolution in Lucanidae. Phylogenetic inference and molecular dating recover Hexarthrius as monophyletic and subdivided into two well-supported clades: a Himalayan clade and a Tropical clade, which diverged approximately 8.9 million years ago. Rhaetus Parry, 1864 is inferred as the sister group to Hexarthrius, whereas Rhaetulus occupies a basal position within the larger Hexarthrius clade. Ancestral-area and morphological reconstructions indicate a complex history of vicariance and dispersal associated with uplift of the Hengduan–Himalayan region and subsequent island isolations. These results clarify species relationships, biogeography, and morphological evolution within this emblematic beetle lineage.

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DOI: 10.3897/asp.83.e159694

Authors: Shodo Mtow, Ryuichiro Machida

Abstract: We examined the morphology of the male and female genitalic regions of Petrobiellus akkesiensis and describe its mating behavior as analyzed using video recordings. Petrobiellus belongs to the monogeneric subfamily Petrobiellinae (Machilidae), an enigmatic group known only from the Far East. Its male genitalic region shows remarkable specialization, leading to the inference that Petrobiellus performs direct spermatophore transfer through genital coupling. Video analysis revealed that, as expected, the male holds the female’s ovipositor using both his penis and styli on the 9th abdominal segment: the penis grasps the basal region of the ovipositor with its hook-like tip and the styli hold the midsection of the ovipositor from above and below; the spermatophore is then discharged onto the dorsal side of the basal region of the ovipositor from the apex of the penis, and the sperm is taken into the ovipositor, thereby completing the direct sperm transfer from male to female. This is the first documented case of direct sperm (spermatophore) transfer via genital coupling in apterygote hexapods. Based on current and previous findings, we compared and characterized the mating behaviors of Archaeognatha and discuss their implications in terms of evolution of mating strategies in Hexapoda. The mating behavior of Petrobiellus represents one of the most derived modes within Machilidae and Archaeognatha, for which we propose the name “direct transfer of spermatophore by genital coupling”.

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DOI: 10.3897/asp.83.e171454

Authors: Josemária Silva de França, Bruno Cavalcante Bellini, Nerivânia Nunes Godeiro, Nikolas Gioia Cipola

Abstract: Rhynchocyrtus Mendonça and Fernandes, 2007 is a monotypic genus of Entomobryidae, endemic to Brazil. Its placement within the Lepidocyrtinae and its systematic affinities with other members of the subfamily, especially with the subgenera of Lepidocyrtus Bourlet, 1839, have never been tested before. Here, we described the morphology and mitogenome of a new species of Rhynchocyrtus from the northeastern Brazilian Atlantic Forest (Rhynchocyrtus cleideae sp. nov. holotype female deposited in CC/UFRN: Brazil, Rio Grande do Norte State, Natal municipality), depicting for the first time the dorsal trunk chaetal pattern, homology and body pseudopores distribution for the genus. The new species description provided further data which we used to update the genus diagnosis, following the current standards used for other Entomobryidae. We also evaluated the phylogenetic placement of the genus within Lepidocyrtinae, testing its affinities with different subgenera of Lepidocyrtus. Our results point to Rhynchocyrtus as an ingroup of Neotropical Setogaster Salmon, 1951 subgenus, and not related to Cinctocyrtus Yoshii and Suhardjono, 1989 as previously suspected. Setogaster is likely a paraphyletic taxon, suggesting that some features currently used to separate Lepidocyrtus subgenera do not hold phylogenetic signal, and should be reevaluated. We discuss the problematic systematics of Lepidocyrtinae and reinforce the usefulness of some alternative morphological traits to better define its subgroups, based on the current knowledge of the group.

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DOI: 10.3897/asp.83.e171040

Authors: Maite Allegue, Nicolás Peralta-Seen, Nelson Ferretti

Abstract: The present study contributes to the understanding of the diversity within the tarantula genus Euathlus Ausserer, 1875. Through a combination of cladistic, molecular, and morphological analyses, three new species are described: Euathlus basalticus sp. nov. from Neuquén, Euathlus kupal sp. nov. from Mendoza, and Euathlus susanae sp. nov. from the La Pampa-Mendoza provinces. Additionally, the female of Euathlus tenebrarum Ferretti, 2015 is described for the first time, revealing that the previously attributed female of this species belongs to E. basalticus sp. nov. Phylogenetic trees from both morphological and molecular datasets are presented. Preliminary molecular analyses reveal the identity and support the proposal of the species treated here. Morphological analyses found considerable diversity within Euathlus, particularly in genitalic structures, challenging the general assumption of morphological homogeneity among mygalomorph spiders. Cladistic analyses recovered the genus Phrixotrichus within Euathlus, though this hypothesis could not be tested with molecular data due to the lack of available sequences for Phrixotrichus. These results suggest that future taxonomic revisions may be complemented once molecular data become available. Altogether, our results provide new insights into the systematics and diversity of Euathlus and highlight the importance of integrative approaches for unraveling evolutionary relationships within this group.

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DOI: 10.3897/asp.83.e152233

Authors: Tácio Duarte, Pitágoras C. Bispo, Pablo Pessacq

Abstract: Abstract The Gripopterygidae family, a diverse group of stoneflies (Plecoptera) endemic to the Southern Hemisphere, has traditionally been divided into five subfamilies, though the monophyly of most remains uncertain due to limited morphological and molecular support. Here we conducted a morphology-based cladistic analysis using 50 characters and 41 taxa, including representatives from all five Gripopterygidae subfamilies and three Austroperlidae species, to test the monophyly of Gripopteryginae and determine the phylogenetic position of a newly discovered species, Tupiperla furcata sp. nov. The analysis, rooted with Penturoperla barbata (Austroperlidae), employed parsimony with implied weighting and tree bisection reconnection methods. Results supported a core Gripopteryginae clade, with absence of a posterior sclerite in tergum 10, but excluded Neopentura semifusca, which was more closely related to Antarctoperlinae. Additionally, Paragripopteryx munoai presented morphological divergence, suggesting it may require reclassification into a new genus. These results challenge the current subfamily classifications, particularly Dinotoperlinae and Leptoperlinae, and highlight the need for further taxonomic revision. To advance the understanding of Gripopterygidae phylogeny, we suggest incorporating molecular data and expanding taxon sampling throughout the Southern Hemisphere. Such efforts would clarify evolutionary relationships and biogeographic patterns, paving the way for a more robust classification of Plecoptera. Un resumen traducido al español puede consultarse en el suplemento electrónico (File S1).

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DOI: 10.3897/asp.83.e145082

Authors: Yuchen Zheng, Yuezheng Tu, Davide Badano, Xingyue Liu

Abstract: Abstract Layahima Navás, 1912 is the most diverse antlion genus of the tribe Acanthoplectrini (Myrmeleontidae: Dendroleontinae) endemic to the Oriental region, currently comprising 12 species. However, the species diversity of this genus is still far from completely explored, and its larval stage is poorly known. Here, we describe four new species of Layahima, i.e., L. haohani sp. nov., L. qilin sp. nov., L. pixiu sp. nov., and L. zhitengi sp. nov., from Southwest China. Moreover, we describe the larval stages of three Layahima species, i.e., L. chiangi Banks, 1941, L. lhoba Zheng, Badano, Liu, 2023, and L. yangi Wan & Wang, 2006. The precise distribution of L. chiangi, whose type locality was previously unclear, has now been clarified to be exclusively restricted to the Nujiang dry hot river valley around Cawarong, Xizang. The phylogeny of Layahima by adding new species herein reported was inferred based on molecular data. The L. zonata group, once considered monophyletic, was recovered as paraphyletic within Layahima.

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DOI: 10.3897/asp.83.e161465

Authors: Mathieu Boderau, Matteo Montagna, Fabio Magnani, Giulia Magoga, Alexey Shmakov, Michael S. Engel, Patricia Nel, André Nel

Abstract: Abstract We report the discovery of the first Triassic ‘shielded thrips’ of the family Iotacyphidae, represented by two species: Triassocypha prima gen. et sp. nov. and T. secunda sp. nov. The species are described and illustrated, and comparisons are made with other stem-Thysanoptera lineages. The unique wing venation of Iotacyphidae and related families is reinterpreted in the light of these new fossils. The venation pattern supports the diagnosis of the family, as well as of higher clades within the broader lineage that includes both thrips and their extinct relatives (in the total group Holothysanoptera, formerly Thripida), and contributes to clarifying the systematics of thrips.

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DOI: 10.3897/asp.83.e144844

Authors: Kirstern Lica Follmann Haseyama, Claudio José Barros de Carvalho, Elaine Della Giustina Soares, Silvio Shigueo Nihei

Abstract: Abstract Polietina is a genus of Muscidae found in the New World, particularly in the Neotropical region. The genus is currently classified within the subfamily Muscinae and consists of 15 species whose phylogenetic relationships have been previously studied using morphological data. In our study, we conducted a phylogenetic analysis based on 37 morphological characters sourced from the literature and eight molecular markers (12S, 16S, 18S, 28S, cytochrome C oxidase subunit I, cytochrome b, region 4 of carbamoyl-phosphate synthetase-aspartate transcarbamoylase dihydroorotase, and elongation factor 1-ɑ), totaling 5366 characters. We obtained molecular data for eight species of the genus and four outgroup taxa from original sequencing and public repositories. We used Bayesian posterior probabilities to estimate the topology, as follows: (P. flavidicincta ((P. rubella (P. concina (P. wulpi, P. orbitalis))) (P. steini ((P. flavithorax (P. ponti, Polietina sp.)) (P. major (P. prima (P. bicolor (P. minor (P. univittata, Polietina sp.))))))))). The reciprocal monophyly of all species for which more than one identified sequence was available is supported by our results. Our analysis largely supports the previously published hypotheses regarding the phylogeny of Polietina. However, major differences were observed between the locations of P. flavidicincta and P. flavithorax. Additionally, we discuss the identity of unidentified Polietina specimens with sequences published in GenBank or new sequences produced as part of our study.

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DOI: 10.3897/asp.83.e151555

Authors: Fang-Shuo Hu, Alexey Solodovnikov, Martin Fikáček

Abstract: Abstract We provide a taxonomic description of the larva of the rove beetle Tolmerinus fratrumelliotorum Rougemont, 2017, identified through DNA barcoding. This is the first larval description for Anisolinina, the only subtribe whose sister group within the tribe Staphylinini remains unclear. While most phylogenetic hypotheses, especially molecular-based, suggest sister group relationships between Anisolinina and Staphylinina, conflicts remain, particularly when adult morphology is used for phylogeny reconstruction. Our attempt to use larval morphology for phylogeny reconstruction neither revealed a sister group for Anisolinina, nor unique synapomorphies for this subtribe. However, by mapping larval characters on the reference tree of Staphylinini, i.e., a phylogeny firmly established by phylogenomics in agreement with the adult morphology, we found unique larval synapomorphies to support the tribe Staphylinini and informal clade Staphylinini propria. We review all phylogenetic hypotheses ever proposed for a sister group of Anisolinina and discuss potential reasons for the poor phylogenetic signal in the larval characters alone. We stress some opportunities and challenges of using larval characters in phylogeny reconstructions.

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DOI: 10.3897/asp.83.e150304

Authors: Mariana Raquel Chani-Posse, Maryzender Erceliz Rodríguez-Melgarejo, José Manuel Ramírez-Salamanca

Abstract: Abstract Konradus Chani-Posse & Ramírez-Salamanca, 2020 was originally described as a monotypic genus from the tropical Andes of Ecuador. However, a re-examination of type material from species previously classified under the genus Philonthus Stephens, 1829, along with additional, previously unstudied specimens collected from high-altitude regions (above 2000 m) in the Andes of Ecuador, Peru, and Bolivia, prompted a more comprehensive reassessment of the genus. This study presents a revision of Konradus and introduces Yuracarus gen. nov., based on external morphology and male and female sexual characters. Two species previously considered “false Philonthus” (Ph. actinus Bernhauer, 1917 and Ph. diamantinus Bernhauer, 1917) are transferred to Konradus and Yuracarus gen. nov., respectively: K. actinus (Bernhauer), new comb., and Y. diamantinus (Bernhauer), new comb. Additionally, two species from Peru are newly described within Konradus: K. cuscensis sp. nov. and K. trescrucensis sp. nov., while three new species are described within Yuracarus: Y. cosnipatensis sp. nov., Y. napoensis sp. nov., and Y. yunguensis sp. nov. A key to species, diagnoses, descriptions and/or redescriptions, illustrations, a distributional map, and a phylogenetic analysis are included. Lectotypes are designated for Philonthus actinus Bernhauer and Philonthus diamantinus Bernhauer. Cladistic analysis confirms the monophyly of Konradus and Yuracarus within the Andean clade (AC) of Neotropical Philonthina and supports Yuracarus as a distinct genus. Both genera are part of a well-supported clade characterized by the presence of sub-bilobed and subtriangular protarsomeres 2 and 3, bearing discal setae on their ventral surface, as well as a horseshoe-shaped accessory sclerite associated with female tergum 10.

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DOI: 10.3897/asp.83.e153079

Authors: Edvanda A. Souza-Carvalho, Célio Magalhães, Fabrício L. Carvalho, Fernando L. Mantelatto

Abstract: Abstract The generic system of the Neotropical crabs of the subfamily Trichodactylinae H. Milne Edwards, 1853 has remained quite stable over the last 30 years, but the recognition or not of the genus Mikrotrichodactylus Pretzmann, 1968 has been a matter of debate: erected as a subgenus, it was treated with generic status in Rodríguez’ classificatory system but some subsequent works considered it a junior synonym of Trichodactylus Latreille, 1828. Based on this scenario, an integrative analysis based on molecular (using two mitochondrial, 16S rRNA and COI, and one nuclear, Histone 3, genes) and morphological (using diagnostic characters traditionally used on the identification of the family) data was performed in order to clarify the phylogenetic position of the genera within Trichodactylinae. The inferred phylogeny recovered three great lineages within Trichodactylinae with high support values in both Bayesian Inference and Maximum Likelihood phylogenetic analyses, corroborated the non-monophyletic status of Trichodactylus, and confirmed the full generic status of Mikrotrichodactylus. A taxonomic rearrangement of Trichodactylinae is proposed but the positioning of “Trichodactylus” quinquedentatus Rathbun, 1893 remains doubtful and was treated herein as a taxon inquirendum et incertae sedis. This taxon seems to be closer related to Rodriguezia Bott, 1969, and Avotrichodactylus Pretzmann, 1968; however, more data are needed before additional taxonomic adjustments concerning its positioning within the subfamily is proposed. In the current proposal, Trichodactylus is composed by four species, Mikrotrichodactylus by six species, Avotrichodactylus and Rodriguezia by three each, in addition to “Trichodactylus” quinquedentatus.

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DOI: 10.3897/asp.83.e150736

Authors: Mariano C. Michat, Yves Alarie, Cesar J. Benetti, Juan I. Urcola, Georgina Rodriguez, Patricia L. M. Torres

Abstract: Abstract A comprehensive phylogenetic analysis of larval characters, including for the first time members of the rare and enigmatic genus Queda Sharp, 1882 was conducted to test the hypotheses of monophyly and relationships of the tribe Hydrovatini within the diving-beetle subfamily Hydroporinae. Our results indicate that Hydrovatini (including both Queda and Hydrovatus Motschulsky, 1853) is monophyletic and unambiguously supported by the absence of the primary pore PAo on the parietal and by the antennal process (commonly identified as A3’) arising from the base of the antennomere 4. This result agrees with the original concept of the tribe introduced more than 100 years ago but challenged by some authors. Our study supports the inclusion of Hydrovatini in a clade of ancestral hydroporine lineages together with Laccornini, Laccornellini and Pachydrini. Within this clade, Hydrovatini is sister to Pachydrini based on the shared absence of an occipital suture in instars II–III, although with weak support. The third-instar larva of Queda is diagnosed and described. It is characteristic in the broad and semicircular shape of the nasale, the maxillary cardo partially fused to the stipes, the presence of setiferous tubercles on the cephalic capsule and abdominal segment VIII, and the subcylindrical and relatively well-developed galea which, interestingly, is somewhat more developed than those exhibited by other hydroporines.

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DOI: 10.3897/asp.83.e137316

Authors: Magdalena Rost-Roszkowska, Łukasz Chajec, Dalibor Stojanović, Dragan Antić

Abstract: The middle endodermal region of the digestive system (midgut) of arthropods is responsible for processes related to digestion but is also considered an organ participating in homeostasis maintenance. Therefore, many experimental studies, for example, related to the effect of various stressors on the organism, are conducted on the epithelium of this intestine. However, it is important to know the basic structure and ultrastructure of the midgut tissues. In myriapods (e.g., millipedes), the midgut has the form of a simple tube lined with a single layer of epithelium, surrounded by hepatic cells and visceral muscles. Considering the fact that millipedes can inhabit various terrestrial environments, feed on a variety of foods, and are important links in food chains, they can be considered good models for ecotoxicological studies. Thus, we selected eight species belonging to the family Julidae (order Julida) to investigate whether any distinct ground pattern for this organ appears within one millipede systematic group and whether it is possible to translate it into the general pattern of the midgut epithelium in millipedes: Leptoiulus sarajevensis (Verhoeff, 1898), Leptoiulus trilineatus (C. L. Koch, 1847), Cylindroiulus boleti (C. L. Koch, 1847), Megaphyllum bosniense (Verhoeff, 1897), Pachyiulus cattarensis (Latzel, 1884) and Pachyiulus hungaricus (Karsch, 1881) as representatives of the epigean fauna as well as Leucogeorgia longipes Verhoeff, 1930 and Leucogeorgia gioi Antić and Reip, 2020 as true cave-dwelling species. The study was performed using light and transmission electron microscopy. The results revealed a general pattern of all cells forming the midgut epithelium in Julidae, as well as the hepatic cells surrounding the midgut. Some small differences were observed, which are probably related to the type of food consumed.

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DOI: 10.3897/asp.83.e130334

Authors: Douglas J. Hilton, D. Andy Young, Liz Milla, Mengjie Jin, Stephen Wilcox, Qike Wang, Verena C. Wimmer, Jinny Chang, Henning Kallies, Andie Hall, Marina Watowich, Carly A. Busch, Jordan Wilcox, Aileen Swarbrick, Marlene Walter, Don Sands, Davina Paterson, David C. Lees, Marco F. Duretto, Adnan Moussalli, Mike Halsey, Axel Kallies

Abstract: Heliozelidae are a group of small monotrysian moths with a near world-wide distribution. While the Heliozelidae fauna of the Palaearctic and Nearctic is relatively well known, few studies have examined Heliozelidae in other regions of the world. If known, described species are leaf miners as larvae; however, the early biology of species outside of the Northern Hemisphere is poorly understood. Here, we describe a group of heliozelid moths that are specialised pollinators of the iconic plant genus Boronia Sm. (Rutaceae) from the south of Western Australia. Females of this group are characterised by the presence of a pollen-collecting structure on the dorsal side of the abdomen that is unique among known Lepidoptera. We propose that these moths are involved in a brood pollination mutualism with their species-specific host plant, where females lay eggs into and pollinate Boronia flowers, and larvae consume developing seeds. Molecular phylogenetic analyses using seven mitochondrial protein coding genes recovered a monophyletic group of pollinator species that belong to a larger group of Rutaceae-associated Australian Heliozelidae. The remainder of this group lack this pollen-collecting structure, providing insights into the evolution of pollination relationships. We resurrect the genus name Prophylactis Meyrick, 1897 stat. rev. and describe 15 new species based on a combination of morphological and molecular characters and host plant information: Prophylactis albiflorallax Hilton, Young & Kallies sp. nov., P. binbin Hilton, Young & Kallies sp. nov., P. clavatallax Hilton, Young & Kallies sp. nov., P. crassifoliallax Hilton, Young & Kallies sp. nov., P. crenulatallax Hilton, Young & Kallies sp. nov., P. gracilipax Hilton, Young & Kallies sp. nov., P. heterophyllax Hilton, Young & Kallies sp. nov., P jasperae Hilton, Young, Milla & Kallies sp. nov., P. megastigmallax Hilton, Young, Halsey, Milla & Kallies sp. nov., P. molloyax Hilton, Young & Kallies sp. nov., P. octandrallax Hilton, Young, Milla & Kallies sp. nov., P. pulchellax Hilton, Young & Kallies sp. nov., P. purdieanallax Hilton, Young & Kallies sp. nov., P. strictallax Hilton, Young, Halsey & Kallies sp. nov., and P. tetrandrallax Hilton, Young, Milla & Kallies sp. nov.

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DOI: 10.3897/asp.83.e143543

Authors: Jesús Gómez-Zurita, Anabela Cardoso

Abstract: In this work, we use a combined analysis of morphological and mtDNA sequence data to recognize and revise a group of species allied to the New Caledonian endemic leaf beetle genus Cazeresia Jolivet, Verma & Mille, 2005 of the Eumolpinae, considered monotypic before this work. We characterize and describe 20 new species allied to C. montana Jolivet, Verma & Mille, 2005 based on the recognition of morphological diagnostic traits and DNA-based species delimitation: C. australis sp. nov., C. clipeata sp. nov., C. corrugata sp. nov., C. globosa sp. nov., C. gracilis sp. nov., C. holosericea sp. nov., C. imperiosa sp. nov., C. impressicornis sp. nov., C. laevigata sp. nov., C. laticollis sp. nov., C. maquis sp. nov., C. ovata sp. nov., C. parentalis sp. nov., C. petitpierrei sp. nov., C. robusta sp. nov., C. spadicea sp. nov., C. subgeminata sp. nov., C. tibialis sp. nov., C. tricolor sp. nov. and C. wanati sp. nov. For C. globosa and C. spadicea we additionally describe the subspecies C. globosa altitudinalis ssp. nov. and C. spadicea bruna ssp. nov. We also propose transferring to this genus the species Thasycles humboldtiana Heller, 1916, Colaspis kanalensis Perroud, 1864, Dematochroma thyiana Jolivet, Verma & Mille, 2008 and Dumbea striata Jolivet, Verma & Mille, 2007, as C. humboldtiana (Heller) comb. nov., C. kanalensis (Perroud) comb. nov., C. thyiana (Jolivet, Verma & Mille) comb. nov. and C. striata (Jolivet, Verma & Mille) comb. nov., respectively. At present, the genus Cazeresia includes 25 species, the vast majority distributed in the southern part of Grande Terre in areas characterized by ultramafic soils and we speculate that the adaptation to these environmental characteristics in lowland areas may be ancestral in this lineage. Two thirds of the species are only known from their type locality, thus treated as potential microendemics, and most other have reduced ranges generally spanning few tens of kilometres. Finally, the degree of species sympatry or parapatry exhibited by Cazeresia is noteworthy, which in the absence of marked morphological differences among species suggests the possibility of the interplay of ecological mechanisms to minimize competition and exclusion.

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DOI: 10.3897/asp.82.e106391

Authors: Chong Li, Liang Tang

Abstract: Staphylininae, a highly diverse subfamily of rove beetles (Coleoptera: Staphylinidae), has been the subject of numerous phylogenetic studies primarily based on molecular genetics and adult morphology. This work represents an initiation of phylogenetic studies using complete immature morphology, encompassing eggs, larvae and pupae, for 27 genera of Staphylininae and two outgroups. Our findings indicate that the combination of data from all three immature stages is more phylogenetically informative than the larval data alone. The resulting maximum parsimony tree partially aligns with previous research, although certain tribal-level issues remain unresolved. Through morphological comparisons, we revealed the morphological diversity of protibia, paratergites and parasternites of abdominal segment I as examples of parallel and mosaic evolution within Staphylininae larvae. We conducted detailed character analyses to provide explanations for these phenomena. Furthermore, this study provides the first morphological data for several species of Staphylinini. Notably, we present a comprehensive study of the morphology of immature stages of Algon sphaericollis Schillhammer, 2006, the first species of the recently established subtribe Algonina with known larva. Additionally, we provide the larval morphology data for six other species: Eucibdelus sp., Platydracus pseudopaganus pseudopatricius (Müller, 1926), Platydracus marmorellus (Fauvel, 1895), Saniderus cooteri Rougemont, 2015, Saniderus sp., and Philonthus spinipes Sharp, 1874.

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DOI: 10.3897/asp.82.e114351

Authors: Mengjiao Ren, Chunpo Tian, Alexandra A. Grossi, Fasheng Zou, Daniel R. Gustafsson

Abstract: Closely related chewing lice in the Philopterus-complex are typically morphologically homogeneous, with the most significant differences often being in the male genitalia. However, in many groups within this complex the male genitalia are reduced and lacking one or more element, with the remaining components often at least partially fused. This is not least the case in the genus Philopteroides Mey, 2004, in which the male mesosome is often reduced and other characters are largely homogeneous throughout the genus. A phylogeny of the group based on a combination of mitochondrial and nuclear genes suggests that the species presently placed in Philopteroides belong to three different clades, which do not form a monophyletic group together. We here redefine Philopteroides morphologically, and describe two of these clades as new genera: Stasiasticopterus n. gen. for the species on bulbuls, and Coronedax n. gen. for species on monarch flycatchers. These genera can be separated from each other and from Philopteroides only by some characters of the male genitalia, but possibly also by characters of the preantennal head and female genitalia. In addition, we describe a new species of Coronedax, Coronedax longiceps sp. n. and provide an overview of the morphology of the male genitalia in the three genera treated.

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DOI: 10.3897/asp.82.e116541

Authors: Zoltán Kenyeres, Norbert Bauer, Maciej Kociński, Beata Grzywacz

Abstract: Steppes form large zonal habitats in Asia but only consist of localised outposts in Europe. An ideal subject for the study of differences within species between the main steppe zone and the localized more western outposts is the Orthopteran Stenobothrus eurasius, widespread across the Siberian and Central Asian steppes but present only in isolated relic populations at the western edge of its area. We used genetic and morphological analyses to detect possible differences among these relic populations. We carried out a study on morphological parameters of wings in parallel with the comparison of four DNA fragments (cytochrome c oxidase subunit I, 12S rRNA and the mtDNA control region, cytochrome B, nuclear internal transcribed spacers plus the 5.8S rRNA region) involving 15 extrazonal populations of the species. St. nigromaculatus was used as an outgroup taxon in the genetic analyses. Variability of the morphological characters of St. eurasius individuals was higher within the regions than amongst the regions. The two Stenobothrus species were not separated based on the CR gene. Samples of both Stenobothrus species were separated on the COI, cytB and ITS1-5.8S-ITS2 phylogenetic trees with high support (PP = 1) in Bayesian analyses but clear genetic lineages were not revealed, and populations of the focal species were not grouped according to their geographic locations. The similarity of this species in different steppe outposts supports the hypothesis that St. eurasius was widespread in the more extensive steppe areas that were once present, but the extension of agricultural landuse reduced the steppe habitats resulting in the current patchy distribution of St. eurasius limited to the remaining habitats.

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DOI: 10.3897/asp.82.e113140

Authors: Noémie M. C. Hévin, Gael J. Kergoat, Alberto Zilli, Claire Capdevielle-Dulac, Boaz K. Musyoka, Michel Sezonlin, Desmond Conlong, Johnnie Van Den Berg, Rose Ndemah, Philippe Le Gall, Domingos Cugala, Casper Nyamukondiwa, Beatrice Pallangyo, Mohamedi Njaku, Muluken Goftishu, Yoseph Assefa, Onésime Mubenga Kandonda, Grégoire Bani, Richard Molo, Gilson Chipabika, George Ong’amo, Anne-Laure Clamens, Jérôme Barbut, Bruno Le Ru

Abstract: In this study, we reassess the phylogenetic relationships of the genus Sesamia Guenée, 1852 and examine in more detail the members of the nonagrioides species group, for which three distinct species complexes are identified. The calamistis subgroup comprises eight species, of which four new species are described: Sesamia kabirara Le Ru sp. nov., Sesamia kalale Le Ru sp. nov., Sesamia mapalense Le Ru sp. nov. and Sesamia teke Le Ru sp. nov. The incerta subgroup consists of 11 species, of which four new species are described: Sesamia kamba Le Ru sp. nov., Sesamia lalaci Le Ru sp. nov., Sesamia lusese Le Ru sp. nov. and Sesamia msowero Le Ru sp. nov. The nonagrioides subgroup comprises ten species of which two new species are described: Sesamia libode Le Ru sp. nov. and Sesamia satauensis Le Ru sp. nov. Phylogenetic and molecular species delimitation analyses of a multi-marker molecular dataset allow us to investigate and clarify the status of Sesamia species and species complexes. Our results yield a well-supported phylogenetic hypothesis for the genus, which supports the monophyletic nature of all but one species subgroup. The results of 16 distinct molecular species delimitation analyses show some levels of incongruence and, overall, a tendency towards over-splitting. We also present an updated list of species for the genus Sesamia and provide morphological keys based on male and female genitalia to determine the species group of any Sesamia species and to identify all species belonging to the nonagrioides species group.

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DOI: 10.3897/asp.82.e114213

Authors: Jamie Ramirez, Agnieszka Bugaj-Nawrocka, Artur Taszakowski, Christiane Weirauch

Abstract: The assassin bug genus Koenigsbergia Popov, 2003 is currently monotypic and represented by a female holotype from Baltic Amber (~33.9–55.8 MYA). The genus was originally described within Phymatinae (Phymatine Complex or phymatine clade). However, our literature review reveals that the amber fossil likely belongs to the subfamily Phimophorinae, which is distantly related to the phymatine clade. The recent acquisition of one male and one nymph of Koenigsbergia provides the opportunity to reevaluate the systematic placement of this genus. We here examine the new fossils, concluding that the adult male represents an undescribed species, and describe it as Koenigsbergia explicativa, new species. Our morphological comparison between Phimophorinae, Phymatinae, and Koenigsbergia (macro imagining, scanning electron microscopy) shows that the fossil genus shares notable similarities with Phimophorus Bergroth, 1886 and Mendanocoris Miller, 1956. We therefore formally transfer the fossil genus to Phimophorinae.

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DOI: 10.3897/asp.82.e116703

Authors: Kinga Walczak, Thomas Pape, James F. Wallman, Krzysztof Szpila, Andrzej Grzywacz

Abstract: The muscid genus Achanthiptera Rondani (Diptera: Muscidae) was classified within its own subfamily Achanthipterinae for decades due to a misinterpretation of adult morphology. Conversely, the larval morphology suggested that Achanthiptera should be classified within Azeliinae, yet no formal changes were implemented based on this source of data. Using scanning electron microscopy (SEM) and confocal laser scanning microscopy (CLSM), we examined the larval morphology of Ac. rohrelliformis (Robineau-Desvoidy), Potamia littoralis Robineau-Desvoidy and Australophyra rostrata Robineau-Desvoidy. Despite the challenges posed by the poor condition of hundred-year-old museum specimens of Ac. rohrelliformis for light microscopy, CLSM examination yielded satisfactory results. Additionally, CLSM observations revealed peculiar modifications to the cephaloskeleton, including a dome-shaped (second instar) or spade-like (third instar) anterior rod attached to each mouthhook in Ac. rohrelliformis and P. littoralis. These structural modifications are likely to enhance the efficiency of food collecting by enlarging the surface of the mouthhooks. The results of our morphological analyses lead to the conclusion that larvae of Au. rostrata are facultative carnivores, while modified accessory oral sclerites in Ac. rohrelliformis and P. littoralis suggest a saprophagous feeding strategy. This study contributes new evidence that Achanthiptera is the sister taxon to Potamia Robineau-Desvoidy, and both are nested within the subfamily Azeliinae.

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DOI: 10.3897/asp.82.e114508

Authors: Erich L. Spiessberger, Alfred F. Newton, Margaret K. Thayer, Oliver Betz

Abstract: The mouthparts and protarsi of adult rove-beetles of the Staphylinine group are examined in detail. We provide descriptions and image plates based on scanning electron micrographs taken from 36 species representing all 10 subfamilies comprising this large staphylinid subunit. We establish groundplan features of the mouthparts for the Staphylinine group and discuss, in detail, aspects and functions of structures that compose the feeding apparatus. A phylogenetic scheme is used to conduct an ancestral character reconstruction of the morphological characters. The potential groundplan features of the characters rendered in our parsimony analysis for the Staphylinine group are: labrum subquadrate or longer than wide; mandible without subapical teeth and retinaculum, with prostheca present, not forming lobe-like projection, and with a mola; maxillary palpomere 4 well-developed, fully sclerotized, similar in width to palpomere 3; ‘glossa’ integrated with prementum plate, sometimes represented by pairs of sensilla basiconica; ‘paraglossa’ with unmodified antero-lateral lobes; labial palpomere 3 from as wide to half as wide as penultimate palpomere. To explain the shape variation of the mandibles, a geometric morphometric analysis was carried out. A character mapping analysis of mandible shapes revealed a trend in the Staphylinine group toward a falcate shape with a narrow base, typically present in some predatory species.

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DOI: 10.3897/asp.82.e112834

Authors: Zohreh Mirzaee, Roberto Battiston, Francesco Ballarin, Saber Sadeghi, Marianna Simões, Martin Wiemers, Thomas Schmitt

Abstract: The dwarf-mantid genus Holaptilon Beier, 1964 is composed of small-sized ground-runner species distributed in the Middle East. Due to their elusive lifestyle, little is known about their behaviour, distribution, and phylogeny. The genus Holaptilon was once established for a single species, H. pusillulum Beier, 1964, based on material collected in Jerusalem, Israel. Later, H. brevipugilis Kolnegari, 2018, and H. yagmur Yılmaz and Sevgili, 2023 were described from Iran and Turkey, respectively. In this study, integrated morphology, molecular analyses, and ecology were used to revise the genus Holaptilon and define the boundaries of its species. New data on this genus are presented, based on Holaptilon specimens collected from various provinces of Iran, Israel, Jordan, and Turkey. Extensive analyses, including examinations of male and female genitalia, morphometrical analysis, and morphological hypervolumes were conducted to distinguish its species morphologically. In addition, four molecular markers (mitochondrial and nuclear) were studied to gain a better understanding of species delimitation and phylogenetic relationships. As a result, impressive inter- and intraspecific variability was recovered. In addition to the three already known species, four new species with their distributions restricted to Iran (H. abdullahii sp. nov., H. khozestani sp. nov., H. iranicum sp. nov., and H. tadovaniensis sp. nov.) are here described, and H. yagmur Yılmaz and Sevgili, 2023 is synonymized with H. brevipugilis Kolnegari, 2018. The integrative approach was essential for an adequate classification in Holaptilon taxonomy and also helpful in the clarification of problematic and cryptic Mantodea species. Additional information concerning the life cycle, ecological aspects, spermatophore feeding, as well as geographic range and historical biogeography of Holaptilon species is also provided.

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DOI: 10.3897/asp.82.e96452

Authors: Shota Shimizu, Ryuichiro Machida

Abstract: Abstract We examine and describe the embryonic development of 13 species from eight families of Dermaptera, i.e., all families excluding Karschiellidae, Hemimeridae, and Arixeniidae: Diplatys flavicollis (Diplatyidae), Cranopygia sp., Echinosoma sp., and Parapsalis infernalis (Pygidicranidae), Apachyus chartaceus (Apachyidae), Anisolabis maritima and Euborellia pallipes (Anisolabididae), Labidura riparia (Labiduridae), Forficula scudderi and Anechura harmandi (Forficulidae), Paralabella curvicauda (Spongiphoridae), and Proreus simulans and chelisochid gen. sp. (Chelisochidae). We also provide new findings on the reproductive biology of the Pygidicranidae and the postembryonic development of the Apachyidae. Based on information from the present and previous studies, we reconstruct the developmental and reproductive-biological groundplan for Dermaptera and discuss phylogenetic issues related to this order. We confirmed that Dermaptera possesses the embryological features (related to mode of embryonic formation and manner of blastokinesis) that are regarded as autapomorphies of Polyneoptera. Eudermaptera is characterized by the extraordinarily great length of the embryo which attains its maximum length in anatrepsis period, the positioning of its posterior end at the egg’s anterior ventral side, the type of egg tooth, and four larval instars. Anisolabididae, Labiduridae, and Eudermaptera share an elongation ratio of embryos in the anatrepsis period (ERE) of 160% or less and a larval instar number of five or less, whereas Protodermaptera is characterized by an ERE of 210% or more, a ratio of embryonic primordium relative to the egg’s longitudinal circumference (IL) of 40% or less, and a larval instar number of six or more. Notably, the ERE, IL, and larval instar number of Apachyidae are within the ranges observed in Protodermaptera.

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DOI: 10.3897/asp.82.e111985

Authors: Carol-Anne Villeneuve, Louwrens P. Snyman, Emily J. Jenkins, Nicolas Lecomte, Isabelle Dusfour, Patrick A. Leighton

Abstract: Abstract Arctic ecosystems face increasing risks from vector-borne diseases due to climate-driven shifts in disease patterns and vector distribution. However, species identification challenges impact vector-borne disease surveillance, necessitates accurate identification. Aedes species are predominant among Arctic mosquitoes and pose health risks, with some species potentially carrying Jamestown Canyon and Snowshoe hare viruses. However, identifying Aedes species is challenging, especially under Arctic conditions and with complex adult traits. This study assessed the suitability of DNA barcoding (COI and ITS2 regions) and morphological characteristics for the identification of Arctic black-legged Aedes. It also aimed to evaluate the reliability of publicly available sequences. Our analysis focused on Aedes impiger, Aedes nigripes, and two species from the Punctor subgroup – Aedes hexodontus and Aedes punctor. In our study, the COI barcoding region distinguished Ae. impiger and Ae. nigripes but not within the species of the Punctor subgroup. In addition, the ITS2 barcoding region did not differentiate the species. When we evaluated GenBank and BOLD sequences, we found issues of under-representation and misidentifications, particularly within the Punctor subgroup. Based on these results, we recommend addressing identification difficulties, particularly within the Punctor subgroup, and advocate for more comprehensive morphological and molecular identification strategies. Integrating morphology and DNA barcoding holds promise for robust disease surveillance in Arctic regions, yet challenges persist, especially in complex species groups like the Punctor subgroup. Tackling these issues is pivotal to ensuring accurate vector status determination and reliable disease risk assessments in a rapidly changing Arctic ecosystem.

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DOI: 10.3897/asp.81.e98166

Authors: Xiao-Zhu Luo, Mariam Gabelaia, Arnaud Faille, Rolf Beutel, Ignacio Ribera, Benjamin Wipfler

Abstract: The stable environment of subterranean realms is characterized by constant darkness, temperature and humidity, and scarcity of resources. This led to similar adaptations in different lineages of animals, such as the reduction of eyes and pigmentation. It is common textbook knowledge that blindness in cave insects is compensated for by transformations of other sensorial structures, especially the antennae with their rich array of sensilla. We tested this hypothesis with 33 species of Leiodidae of the tribe Leptodirini (Coleoptera) with and without eyes and from hypogean and epigean environments. We documented and compared the number, types, arrangement and density of smooth and furrowed antennal sensilla on certain flagellomeres. Our statistical analysis that took effects of body size and phylogeny into consideration showed that (1) the number of these sensilla does not differ between hypogean or epigean beetles; (2) the same applies to length and diameter of the antennal sensilla; (3) there is a difference in density, but unexpectedly it is lower in hypogean species. Our finding thus contrasts with widely accepted earlier interpretations for those external antennal sensilla in the studied Leptodirini, showing that sensillar patterns are scarcely affected in these subterranean beetles if at all, and even less dense in blind and cave-living species. Our results thus add a new facet to the evolution of cave animals.

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DOI: 10.3897/asp.81.e107507

Authors: Elton Orlandin, Mônica Piovesan, Daniel Herbin, Eduardo Carneiro

Abstract: Apatelodidae is a family of Neotropical bombycoids that still needs to be studied in several aspects, as many groups of species have not yet undergone a careful systematic revision. On the other hand, recent studies showed that some species known to be widely distributed in fact form species complexes. Until now, Olceclostera bifenestrata Schaus, 1912, described from Costa Rica, supposedly has a wide distribution, reaching the south of Brazil. We reviewed specimens from South America identified as O. bifenestrata. Using morphological data and DNA barcodes, we discovered that South American specimens belong to four new species: Olceclostera jairana sp. nov., Olceclostera quilombola sp. nov., Olceclostera xeta sp. nov. and Olceclostera wayana sp. nov. The four species can be distinguished mainly by characters of genitalia, mostly in aedeagus structures. However, wing characters (number of hyaline spots) and abdomen characters (number of patches of larger scales) may be useful for classifying species groups in Olceclostera. Additionally, we illustrate and describe for the first time all the life stages of an Olceclostera species, including its chaetotaxy and life history, and provide the first SEM images of the egg of an Apatelodidae species. We present a discussion about the morphological characters of adults and immatures and their relevance to the systematics of Apatelodidae.

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DOI: 10.3897/asp.81.e104810

Authors: Zachary H. Griebenow, Adrian Richter, Thomas van de Kamp, Evan P. Economo, Ziv E. Lieberman

Abstract: The male genitalia of the Insecta are famed for structural and functional diversity. Variation in this anatomical region shows ample phylogenetic signal, and this variation has proven indispensable for classification across the insects at multiple taxonomic ranks. However, in the ants (Hymenoptera: Formicidae) the male genital phenotype is ancillary to the morphology of the worker caste for systematic purposes. Ants of the enigmatic subfamily Leptanillinae are an exception, as males are easier to collect than workers. Ongoing systematic revision of the Leptanillinae must therefore rely upon the male phenotype – particularly the spectacular morphological profusion of the male genitalia. To thoroughly illuminate this anatomical region and aid comparative morphological research on ant male genitalia, we present a comparative morphological study of the male genitalia in nine exemplar lineages spanning the Leptanillinae, plus three outgroups representing other major clades of the Formicidae. We use micro-computed tomography (micro-CT) to generate 3D volumetric reconstructions of male genital skeletomusculature in these specimens. Our descriptions use new muscular terminology compatible with topographic main-group systems for the rest of the pterygote soma, and applicable to all Hymenoptera. We find that male genitalia in the Leptanillinae show an overall trend towards skeletomuscular simplification, with muscular reduction in some cases being unprecedented in ants, or even hymenopterans in general. In several lineages of the Leptanillinae we describe derivations of the male genitalia that are bizarre and unparalleled among the Hymenoptera. We conclude by discussing the functional implications of the often-extreme morphologies here observed.

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DOI: 10.3897/asp.81.e111281

Authors: Hao Yu Liu, Ruo Lan Du, Wei Zhao, Xing Ke Yang, Yu Xia Yang

Abstract: Insect male genitalia show an evolutionarily variable morphology that is valuable for both species identification and phylogenetic analyses. However, we often encounter some difficulties when conducting relevant studies due to only quantitative variations exhibited in male genitalia. In this study, based on the taxonomy of the Macrolycus dotatus species group (a total of seven species, including three new species described here), we analyzed the male genitalia shapes by GM and then constructed the phenotypic relationships by UPGMA, NJ and MP analyses. The results demonstrated that the species could be well delineated by the shape of male genitalia, and the produced phenograms frequently recovered phenotypic similarity between the coupled species, including M. atronotatimimus sp. nov. + M. huoditangensis sp. nov. and M. aemulus + M. dotatus, which is useful for making comparisons in species descriptions. Meanwhile, the MP analysis of male genitalia shape using two landmark configurations is considered reliable in inferring the phylogenetic relationship among species in terms of the consistency between its topologies and the molecular phylogeny. This study sheds new light on improving the morphological taxonomy of insects in lower grades while fully utilizing the taxonomic value of male genitalia in a phylogenetic context.

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DOI: 10.3897/asp.81.e109833

Authors: Pavel Sroka, Jakub Prokop

Abstract: The stonefly suborders Arctoperlaria and Antarctoperlaria reflect the current division of the diversity of this insect order between the Northern and Southern Hemispheres. However, there are several exceptions to this pattern, the most notable being the family Notonemouridae, which is phylogenetically deeply subordinate within the northern Arctoperlaria, but distributed in South Africa, South America, and Australia. Various hypotheses have been proposed regarding the circumstances of their dispersal to the south. Some estimated their origin as relatively recent, with long-distance dispersal to the southern continents in the Late Cretaceous or early Paleogene. On the other hand, fossils of Notonemouridae have been dated to the Middle Jurassic, proving the lineage is very ancient. However, all known notonemourid fossils originate from Asia and the timing of their dispersal to the south cannot be precisely estimated. Here we report new fossil stoneflies from the Late Jurassic Talbragar Fish Beds, Australia, described as Talbragaria australis gen. et sp. nov. and attributed to Notonemouridae. This finding represents the first fossil evidence of the northern suborder Arctoperlaria in the Southern Hemisphere, and confirms the north-to-south dispersal of Notonemouridae across Pangea prior to the continental break-up.

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DOI: 10.3897/asp.81.e104522

Authors: Clément Schneider, Cyrille A. D’Haese

Abstract: Mackenziella psocoides Hammer, 1953 (Collembola: Mackenziellidae) is a widespread but uncommon springtail. Its unusual body shape (ovoid, with partial coalescence of abdominal segments) has puzzled the specialists for a long time, until the discovery of males allowed to relate the species to a family of globular springtails, the Sminthurididae. Yet, the precise phylogenetic position of M. psocoides, and hence of the Mackenziellidae, remained ambiguous. In this work, we report a new locality for M. psocoides in Germany. We provide the first DNA sequences (nuclear ribosomal DNA operon) for the species, as well as the first images using scanning electron microscopy. We investigate its phylogenetic position based on the molecular data and specify details on its morphology. Our results show that M. psocoides is nested inside of Sminthurididae, as the sister group of Sphaeridia Linnaniemi, 1912. Consequently, Mackenziellidae syn. nov. is here synonymized with Sminthurididae. We include Mackenziella and Sphaeridia in the Sphaeridiainae subfam. nov., a replacement name for Sphaeridiinae Richard, 1968 that is a junior homonym of Sphaeridiinae Latreille, 1802 (Coleoptera: Hydrophilidae). Corresponding to its phylogenetic position within Sminthurididae, the evolutionary origin of M. psocoides is younger than previously thought (79 mya +/- 35 my). The lineage accumulated an unusual amount of body modifications involving, among others, the loss of the globular body shape. This rapid rate of evolution is, to our knowledge, unique in springtails. It shows that globular body shape is not an evolutionary dead-end, and the secondary acquisition of a linear body shape and recovery of longitudinal flexibility is still possible.

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DOI: 10.3897/asp.81.e104772

Authors: Yan-Na Zheng, Jun-Jie Gu, Zhu-Qing He, Huateng Huang, Li-Bin Ma

Abstract: The hemispherical head is prevalent in Gryllinae crickets, so the rare crickets that have a unique form of head will be extremely unusual. In previous studies, this special feature can be one of the important features to distinguish and identify these crickets. But does this particular head shape truly reflect a clear-cut taxonomic relationship? The species of the genus Loxoblemmus have a typical truncate head; species of the genus Stephoblemmus have a more exaggerated truncate head, with the frontal end even extending into a lamellar. The genus Mitius is relatively unusual in that species of this genus have both globose or truncate heads. How are these species related? Does the cephalic shape perfectly reflect the natural classification of these species? Based on these questions, the study applied species definition and morphological classification to explore the intergeneric and intrageneric species relationships of the genera Mitius, Stephoblemmus, and Loxoblemmus, and derived the following main conclusions: (1) Mitius and Stephoblemmus are related and distinct from Loxoblemmus; (2) Mitius species bear two types of frons (truncated and rounded), but this feature disallows them to be classified as natural groups; (3) one genus synonym and three species synonyms are raised (Mitius Gorochov, 1985 syn. n., Mitius splendens (Shiraki, 1930) syn. n., Mitius eryuanensis Yuan, Xie & Liu, 2021 syn. n. and Mitius brevipennis Yuan, Ma & Gu, 2022 syn. n.), and seven new status combinations are proposed (Stephoblemmus blennus (Saussure, 1877) comb. n., Stephoblemmus castaneus (Chopard, 1937) comb. n., Stephoblemmus enatus Gorochov, 1994 comb. n., Stephoblemmus flavipes (Chopard, 1928) comb. n., Stephoblemmus minor (Shiraki, 1911) comb. n., Stephoblemmus minutulus (Yang & Yang, 1995) comb. n. and Stephoblemmus vaturu (Otte & Cowper, 2007) comb. n.). The studies indicated that frons shapes that appear to be significantly different might not always reflect the correct Gryllinae species relationships and a combination of more taxonomic features and taxonomic techniques is needed often to reveal the true taxonomic relationships.

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DOI: 10.3897/asp.81.e98141

Authors: Ionela-Mădălina Viciriuc, Mircea-Dan Mitroiu, Richard Robinson Askew, Nicolas Ris, Lucian Fusu, Nicolas Borowiec

Abstract: The introduction of the biological control agent Torymus sinensis Kamijo (Hymenoptera, Chalcidoidea, Torymidae) to control the populations of the chestnut gall wasp Dryocosmus kuriphilus Yasumatsu (Hymenoptera, Cynipidae) is considered one of the successful programs in biological control. The species was involved in interspecific hybridisation in Japan and the specimens imported into Europe were derived from this hybrid lineage, showing signs of introgression. The discovery of mitochondrial haplotypes or possible Enolase haplotypes from T. beneficus or of specimens with shorter ovipositor does not necessarily imply that T. beneficus is present in Europe, only that the European specimens are of hybrid origin. Of the native European Torymus species associated with D. kuriphilus, the molecular and morphometric results indicate Torymus notatus (Walker) as the closest species to T. sinensis. The two are part of the same species-group (cyaneus group), are nested together in the multivariate ratio analysis and are the closest genetically based on all three nuclear markers: Enolase (1.5% divergence), Wingless (2%) and ITS2 (13%). However, on the mitochondrial marker COI the closest species is Torymus rubi (Schrank) at 9.9% divergence. As such, T. notatus is the most likely candidate for accidental interspecific hybridisation if this is to happen in Europe. We provide an illustrated identification key for the European species of Torymus associated with D. kuriphilus, an important but lacking tool for biological control programs.

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DOI: 10.3897/asp.81.e101374

Authors: Kateřina Rosová, Jakub Prokop, Jörg U. Hammel, Rolf G. Beutel

Abstract: Omophroninae is a distinctive monogeneric group of Carabidae, presumably placed relatively close to the root of the megadiverse adephagan family. In the present study we describe a larva belonging to Omophroninae from mid-Cretaceous Burmese amber and erect a new genus †Cretomophron. Several features support the placement in this small but distinctive subfamily, such as the wedge-shaped head, the large triangular nasale, the elevated antennae with the apical segment directed sideways, the large and bidentate mandibular retinaculum, the enlarged hexagonal prothorax, legs with a distinct armature of spines, and the relatively narrow and posteriorly tapering abdomen. In contrast to larvae of the extant genus Omophron Latreille, the posterior tentorial grooves are not shifted backwards, apparently a plesiomorphic feature, the 2nd antennomeres are markedly longer, and the legs bear long setae and rather thin and long spike-like setae. †Cretomophron also differs in the presence of numerous setae arranged in transverse rows on abdominal segment VI. Lateral lobe-like expansions of abdominal tergites are a conspicuous feature of the new genus but similar structures occur in later instars of Omophron. Structural specializations of the head, prothorax and legs strongly suggest that the larvae were burrowing in sand, like adults and larvae of the extant genus, and that they were efficient predators, detecting prey with the unusually shaped antennae and long maxillae, grasping it with the elongate apical mandibular tooth, and squeezing and piercing it between the bidentate retinaculum and large and triangular nasale.

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DOI: 10.3897/asp.81.e102848

Authors: Nathalia H. Pecly, Daniela M. Takiya, Rodney R. Cavichioli, Gabriel Mejdalani

Abstract: The genus Dasmeusa is distributed in Northern and Northeastern Brazil and the Guianas. Until the present study, six species were recognized within Dasmeusa. The species of this genus are very similar in terms of color and external morphology, being distinguished mainly by the male terminalia. Here, we review and redescribe Dasmeusa and its species, describe four new species, and present the first phylogenetic analysis of the genus, including 40 morphological characters and 15 terminal taxa. Dasmeusa flavescens Metcalf and Erythrogonia bicolor Metcalf are considered junior synonyms of the type-species, Dasmeusa pauperata (Fabricius). Scanning electron microscopy was employed for a detailed study of the integument of the type-species, including sensilla, surface sculpturing, brochosomes, organ of Evans, and other structures. The phylogenetic analysis with equal weights resulted in nine most parsimonious trees. The implied weighting method resulted in two trees, both with the same ingroup topology as observed in one of the nine equal-weights trees. This preferred topology is as follows: ((D. basseti (D. mendica (D. rafaeli sp. nov., D. falcifera sp. nov.))) (D. isabellina (D. oriximina sp. nov. (D. pauperata (D. imperialis, D. dinizi sp. nov.))))). Dasmeusa was recovered as monophyletic in all trees, being supported by five apomorphic characters.

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DOI: 10.3897/asp.81.e104969

Authors: Luciano Damián Patitucci, Pablo Ricardo Mulieri, Márcia Souto Couri, Martha Cecilia Domínguez

Abstract: Coenosiini (Diptera: Muscidae) is a large cosmopolitan tribe of muscids, within which Coenosia Meigen and Neodexiopsis Malloch are the genera with the largest number of species. In this work, we revised for the first time, all the species placed by Malloch (1934) under Austrocoenosia, an endemic genus from the Andean Patagonian Forests, whose species are now placed in Coenosia and Neodexiopsis. We provide detail redescriptions for eight species placed by Malloch (1934) under Austrocoenosia, and decribed two new species (Coenosia delneneo sp. nov. and Coenosia patagonica sp. nov.), with high quality photographs detailing new structures of the male and female terminalia. To establish the position of the species of Austrocoenosia with respect to Coenosia and Neodexiopsis, we made a phylogenetic analysis using implied weighting for 36 taxa and 132 morphological characters of adults, including male and female genitalia. We recovered all species of Austrocoenosia as Coenosia species. We propose the following nomenclature actions: Austrocoenosia as a junior synonymy of Coenosia (syn. rest.); Coenosia brevicornis (Malloch) (comb. nov.), Coenosia dubia (Bigot) (comb. rest.); Coenosia hucketti, Pont (nom. nov.) and Coenosia nigerrima (Malloch) (comb. rest.). We also propose Coenosia spumicola Pont as an unplaced species of Coenosia sensu lato. Finally, we updated the geographic distributions for all species and observed several new male and female terminalia structures, which enriched the discussion of the genera and the tribe.

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DOI: 10.3897/asp.81.e101441

Authors: Jindřich Roháček, Jörg U. Hammel, Viktor Baranov

Abstract: A new family of Diptera Acalyptratae, Christelenkidae Roháček fam. nov., is established for Christelenka multiplex Roháček gen. et sp. nov., an unusual extinct taxon described from a unique male specimen preserved in Baltic amber (Mid-late Eocene, ca 48–34 Ma). Apart from detailed examination by light microscopy and photography, the holotype of the new species has also been studied by means of X-ray synchrotron microtomography with the aim of obtaining additional morphological data for consideration of its relationships. Because of a very peculiar combination of morphological characters, the new family is tentatively considered a separate lineage of Acalyptratae having no apparent sister-group relationship with any of the known families. Its probable relationships to some families of Opomyzoidea and Ephydroidea are discussed.

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DOI: 10.3897/asp.81.e96397

Authors: Augusto Henrique Batista Rosa, Eduardo de Proença Barbosa, Patrícia Avelino Machado, Ricardo Russo Siewert, André Victor Lucci Freitas

Abstract: Dasyophthalma includes five species of medium-sized butterflies, all endemic from the Atlantic Forest of Brazil. All known species are univoltine and are dayflying, differently from other Brassolini that are mostly crepuscular. In despite of recent advances little is known about their natural history. Three out of the five species are included in the Brazilian Red List of threatened fauna and are of conservation concern. The present study provides for the first time a phylogenetic assessment of all Dasyophthalma species based on a molecular approach based on three loci. Also, the taxonomic status of D. rusina delanira was revised based on molecular data. In addition, up-to-date distributional data and conservation aspects of the threatened species from the genus are presented and discussed. The molecular phylogenetic analysis supports the monophyly of Dasyophthalma, with Dynastor darius as its sister-group, and, combined with a genetic divergence analysis, supported Dasyophthalma delanira stat. rest. as a valid name to species-level, sister-group to D. geraensis (and not a subspecies of D. rusina). The geographical range (extent of occurrence and area of occupancy) for all five species are presented, showing that these are very restricted for D. delanira stat. rest. and D. geraensis, following the distributions of the high-altitude forests. As much biological information about the genus is lacking, the present study can serve as a starting point for future studies on Dasyophthalma, adding information that can be crucial for future conservation actions and essential to assure the future of the threatened species in this genus.

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DOI: 10.3897/asp.81.e95181

Authors: Ricardo Botero-Trujillo, Leonel Martínez, Hernán Augusto Iuri, Andrés Alejandro Ojanguren-Affilastro, Leonardo Sousa Carvalho

Abstract: The solifuge genera Eutrecha Maury, 1982 and Xenotrecha Maury, 1982 are among the rarest and most elusive groups of camel spiders in the New World. Since their inception, both genera have remained unclassified within the subfamilial scheme of Ammotrechidae, where they belong, and their systematic position and affinities to other genera continue to be unexplored. This contribution addresses the affinities that Eutrecha and Xenotrecha have to the type genus of Ammotrechinae, Ammotrecha Banks, 1900. Based on the taxonomic distribution of characters shared by these genera, it is proposed that the three are closely related and classified into Ammotrechinae. Revised diagnoses are presented for Ammotrechinae s.str., Eutrecha, and Xenotrecha, and redescriptions are presented for species of these genera, when possible. A new species, Eutrecha belenensis sp. nov., is described from Colombia, raising to three the number of species in the genus. New material of Eutrecha florezi Villareal-Blanco, Armas and Martínez, 2017 and Xenotrecha huebneri (Kraepelin, 1899) is referenced, thus extending the distribution range of these species in Colombia and Brazil, respectively. Ammotrechinae s.str. is here defined by the presence of a retroventral longitudinal carina on the movable finger of the chelicerae and a cleavage plane basally on the femur of pedipalps, among other characters. The cleavage plane allows the pedipalp to be autotomized, representing the first report of pedipalp autotomy in Solifugae. This work also presents a discussion on the taxonomy of Ammotrechidae and delves into some aspects that affect the current delimitation of some of its subfamilies.

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DOI: 10.3897/asp.81.e101411

Authors: Wei Zhao, Hao Yu Liu, Xue Ying Ge, Yu Xia Yang

Abstract: The resolution of phylogenetic relationship among animals is still one of the most challenging problems in systematic zoology. Insect wing is a highly valued morphological character in the systematics, but few studies have been conducted to quantify wing shape variations for phylogenetic reconstruction. In this study, with Cantharinae as the subject, we conducted the GM analyses from hindwings of 16 representative genera. Further, we conducted the UPGMA based on Procrustes distance and Euclidean similarity measure of Mahalanobis distance, respectively, and NJ analysis of the Mahalanobis distance, as well as MP analysis using merged landmark dataset. In the meantime, we constructed the phylogenetic relationships among these genera based on the mitochondrial genomes, with a total of 41 sequences novel to Cantharinae, by BI and ML analyses. As a result, the CVA analysis demonstrated that the hindwing shapes of the cantharid genera are significantly different from one another. All the topologies produced by the GM data partially correspond with that of mitogenomic data. The close relationships of some genera are frequently recovered, including Cyrebion + Themus, Cantharis + Taiwanocantharis + Taocantharis, Stenothemus + Falsopodabrus + Habronychus. These results prove the importance and potential application of the hindwing shapes in recovering the relationships among the sibling genera.

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DOI: 10.3897/asp.81.e85191

Authors: Si Xun Ge, Zhuo Heng Jiang, Jia Qi Wang, Kui Song, Chao Zhang, Shao Ji Hu

Abstract: The taxonomic status of the Pieris napi-complex and similar species which occur in China are revised. Relevant species distributed in the adjacent regions were included to clarify the status of Chinese species and were briefly revised. All those species are described and illustrated and new synonyms are established. A molecular phylogenetic analysis is also performed on the species group including similar species, to investigate the phylogenetic relationships between taxa. Species of the Pieris napi-complex that occur in China and adjacent regions are redefined, with four similar species excluded (P. melaina, P. extensa, P. chumbiensis gyantsensis and P. melete). A distribution map and keys of the complex including similar species are provided. The taxon P. mihon Yakovlev, 2006 stat. nov. is raised from subspecies to species status; P. narina Verity, 1908 stat. rev. is confirmed as a distinct species rather than a subspecies of P. ochsenheimeri; Pieris euorientis Verity, 1908 stat. rev. is recovered as a distinct species sister to P. dulcinea. Two taxa, ssp. sauron and ssp. bryonides are moved from subspecies of P. euorientis and P. bryoniae, respectively, to P. napi, i.e. P. napi sauron Yakovlev, 2004 comb. nov and P. napi bryonides Sheljuzhko, 1910 comb. rev. A new synonym is proposed: Pieris ochsenheimeri tianshansis Tadokoro, Shinkawa & Wang, 2014, new synonym of P. mihon Yakovlev, 2006. A new mistaken identification is proposed: Pieris dulcinea kneitzi is a misidentification of Pieris erutae kneitzi Eitschberger, 1983 comb. rev. Five Chinese species belonging to the Pieris napi-complex were confirmed, namely P. narina, P. mihon, P. latouchei, P. dulcinea, and P. erutae. Among them, two species, P. mihon Yakovlev, 2006 and Pieris narina Verity, 1908, are newly recorded from China. The taxonomic status of Pieris steinigeri Eitschberger, 1983 and Pieris bryoniae sifanica Grum-Grshimailo, 1895 is also discussed.

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DOI: 10.3897/asp.81.e86793

Authors: Bernhard A. Huber, Guanliang Meng

Abstract: The Pholcidae subfamily Smeringopinae has been revised extensively over the last decade, and most of its currently eight genera can now be placed with some confidence in the phylogeny of the family. A notable exception has been the endemic Seychellois genus Cenemus Saaristo, 2001. Morphologically, the genus is mainly characterized by plesiomorphies, which resulted in weakly supported and unstable positions in previous cladistic analyses. Molecular data have not previously been available. Here we revise the morphology of the type species Cenemus culiculus (Simon, 1898), including first SEM photos, and present the first molecular data for the genus. Morphology and molecules continue to give conflicting results regarding the sister taxon of Cenemus, but our analyses strongly support a position of the genus within the northern group of Smeringopinae (Northern Africa and the Mediterranean to India) rather than in the southern group (Subsahara Africa). This supports the idea that Cenemus is an ancient taxon, dating back to the breakup of Gondwana, between the separation of the Mascarene platform from Madagascar (~85 mya) and its separation from India (~60 mya). In addition, we present first molecular data for the recently established Smeringopinae genus Maghreba Huber, 2022, which is consistently resolved as sister to Crossopriza Simon, 1893; we present molecular evidence for the polyphyly of Holocnemus Simon, 1873, supporting previous morphological evidence; and we present an annotated list of the Pholcidae of the Seychelles, most of which are supposedly recent human introductions.

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DOI: 10.3897/asp.81.e87378

Authors: José R. I. Ribeiro, Augusto Ferrari

Abstract: The Belostoma plebejum group comprises nine species, and the most evident characteristic shared by all species of the group is a phallus that is strongly curved ventrally. The difficulty in studying its species is much aggravated by the scarcity of identified material in Brazilian collections, and this has negatively impacted phylogenetic studies within the group. We tested the monophyly of the B. plebejum group using discrete and continuous characters under different weighting schemes and inferences. We described B. lanemeloi sp. nov. and B. nieseri sp. nov. and they served as the basis to study the phylogenetic relationships. A strict-consensus tree recovered under maximum parsimony and with implicit weighting scheme is as follows: (B. parvum, ((B. lanemeloi sp. nov., (B. nessimiani, B. nieseri sp. nov.)), (B. micantulum var1, (B. micantulum var2, (B. estevezae, ((B. plebejum, (B. minusculum var1, B. minusculum var2)), ((B. nicaeum var1, B. nicaeum var2), ((B. lariversi var1, B. lariversi var2), (B. pygmeum var1, B. pygmeum var2))))))))). The monophyly of the B. plebejum group is corroborated by four non-homoplastic synapomorphies, and the aforementioned condition of the phallus is one of them. We tested the phylogenetic integrity of some species of the B. plebejum group, and only the exemplars of B. micantulum did not constitute monophyletic clades. Comparing the topologies obtained by different approaches clearly showed the presence of different scenarios in terms of heterogeneity of evolutionary rates among characters, but this could also be influenced by the disproportionate number of discrete characters compared with continuous characters.

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DOI: 10.3897/asp.80.e90570

Authors: Michelle Lorenz, Stephanie F. Loria, Mark S. Harvey, Danilo Harms

Abstract: Madagascar is amongst the “hottest” biodiversity hotspots with extreme levels of diversity and endemism. Throughout the last decades, there has been substantial progress in documenting the Malagasy invertebrate fauna but no study has ever focused on pseudoscorpions (Arachnida: Pseudoscorpiones) in the arachnid fauna. Here we review the Malagasy fauna of Hercules pseudoscorpions (family Feaellidae), which are common in soil habitats of arid biomes across Madagascar. Using morphology and molecular data, we recover three reciprocally monophyletic clades that correspond to three new genera in well-defined biogeographical regions and identify twelve new species: Antsiarananaella gen. nov. for Antsirananaella lorenzorum sp. nov., Antsiarananaella leniae sp. nov., Antsiarananaella faulstichi sp. nov. and Antsiarananaella marlae sp. nov.; Mahajanganella gen. nov. for Mahajanganella fridakahloae sp. nov., Mahajanganella heraclis sp. nov. and Mahajanganella schwarzeneggeri sp. nov.; Toliaranella gen. nov. for Toliaranella fisheri sp. nov., Toliaranella griswoldi sp. nov., Toliaranella mahnerti sp. nov., Toliaranella meridionalis sp. nov. and Toliaranella pumila sp. nov. Local endemism in this fauna is high and most species have small distributions, ranging from 20 km to 350 km linearly. Genetic distances between populations are also high, suggesting restricted dispersal or selection against dispersal in this fauna. Species’ ranges seem to be delimited by geological barriers including volcanic fields (Ambre-Bobaomby in the north of Madagascar), mountain ranges (foothills of the Central Highland Plateau), and rivers (Manankolana, Mandrare, Manombo and Onilahy Rivers and their anabranches), but mainly by different biome habitats. Overall, Madagascar emerges as a global “hotspot” of feaellid radiation and these animals may be used in future studies to test biogeographical hypotheses across xeric biomes on this island.

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DOI: 10.3897/asp.80.e84428

Authors: Enrico Schifani, Antonio Alicata, Mattia Menchetti, Lech Borowiec, Brian L. Fisher, Celal Karaman, Kadri Kiran, Wala Oueslati, Sebastian Salata, Rumsaïs Blatrix

Abstract: The West-Palearctic region is a diversity hotspot for the ant genus Aphaenogaster. Species in this region are characterized by high morphological variation, which has led to their subdivisioninto different infrageneric groups. The very first classification in three subgenera, dated 1915, was gradually replaced by eight species-groups. To probe the evolutionary consistency of these species-groups, we sequenced 46 species from all eight species-groups and biogeographic sectors of the region, using one mitochondrial (COI) and six nuclear markers (EPICs), and interpreted the results by integrating qualitative morphology. Our results demonstrate the non-monophyly of all formerly recognized subgenera and species-groups, except for the crocea group. We use the phylogeny and morphological characters to propose a new classification of six monophyletic species-groups (crocea, gibbosa, graeca, pallida, sardoa, subterranea). The pallida, subterranea and sardoa (formerly testaceopilosa) groups attain monophyletic status by reassigning a few taxa. The gibbosa group is to be considered exclusively Western-Mediterranean until further assessments of similar Eastern species. The new graeca group is established by including former members of the splendida and subterranea groups, while the polyphyletic cecconii, obsidiana, and splendida groups are dismissed. Notably, the first is not part of the tropical Deromyrma clade as previously thought, while at least two independent clades which require further investigation are composed of species from both the cecconii and splendida groups, suggesting repeated morphological convergences based on similar ecological adaptations. Finally, A. cardenai is confirmed to be a significantly divergent lineage. In addition, three Aphaenogaster species are moved to different genera: Messor asmaae (Sharaf, 2018) comb. nov., Messor isekram (Bernard, 1977) comb. nov., and Pheidole sarae (Sharaf, 2018) comb. nov. Further studies should address the evolutionary relationships between the clades recovered in this study.

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DOI: 10.3897/asp.80.e82831

Authors: Lucas Roberto Pereira Gomes, Maria Aparecida Cassilha Zawadneak, Magda Clara Vieira da Costa-Ribeiro, Tiago Miguel Jarek, Claudio José Barros de Carvalho

Abstract: Delia sanctijacobi is critically assessed and given a revised description using data from scanning electronic microscopy (SEM) and DNA barcode analysis. This species is recorded for the first time in Brazil and Peru. We provide a morphological identification key (with figures) for Delia species from Brazil, a molecular identification based on COI (cytochrome C oxidase subunit I) barcode sequences and an updated distributional map. We also report the first occurrence of D. sanctijacobi feeding on Brassica species in Brazil. This potential pest was observed in broccoli roots (Brassica oleracea var. italica; Brassicaceae) in União da Vitória, Paraná, southern Brazil, in August and September of 2017. The infested plants displayed reduced growth due to damage to the stem base or death if severely attacked.

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DOI: 10.3897/asp.80.e82549

Authors: Zhi-Teng Chen

Abstract: The larval stage is an essential part of the life history of stoneflies and can provide substantial biological and evolutionary information. However, well-preserved fossils of larvae are sparse. Herein, the larval morphology of a new extinct stonefly, Kachinoperla zwicki gen. et sp. nov., is described based on its exuvia in mid-Cretaceous Kachin amber from northern Myanmar (98.79±0.62 Ma). The new stonefly also represents a new family, Kachinoperlidae fam. nov. according to its unique characters. Kachinoperlidae can be distinguished from other stonefly families by the following larval characters: predaceous mouthparts, subequal glossae and paraglossae, subequal maxillary and labial palps, reduced apical maxillary palpomere, trapezoidal pronotum, banded and semicircular wing pads, invisible notal contour, absent thoracic gills, shortest first two tarsomeres, and strongly projected abdominal tergum 10. The morphological comparison and phylogenetic analysis suggested the new family as a basal lineage within Systellognatha. Evolutionary implications implied by the larval characters are also discussed.

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DOI: 10.3897/asp.80.e62469

Authors: Duting Jin, Qiongyao Zhao, Wei Han, Jinxiang Li, Zongqing Wang, Yanli Che

Abstract: Members of the morphologically and ecologically diverse Blattellidae provide a dilemma: their systematic assignment, whether morphologically similar or different, is uncertain. We pay special attention to several taxa: the morphologically similar Episymploce Bey-Bienko, 1950 and Symploce Hebard, 1916, which were strongly disputed because of their extremely similar generic diagnosis in the past century, and one brachypterous species of Blattella Caudell, 1903, which can be easily distinguished from other macropterous members, but is at risk of being misassigned to other genera on the basis of morphological characters. We address the phylogeny of Blattellidae using DNA sequences (mitochondrial 12S rRNA, 16S rRNA, COII, nuclear 28S rRNA, histone H3) from a broad sample of taxa. A new genus (Centrocolumna gen. nov.) and four new species (Centrocolumna ericea sp. nov., Symploce nigra sp. nov., Symploce tubercularis sp. nov., Blattella foliolata sp. nov.) are established on the basis of morphological characters combined with the molecular data. The phylogenetic results indicate the relationships ((Episymploce + Blattella) + Centrocolumna gen. nov.) + Symploce. Furthermore, we delimited the taxonomic status of 12 new combinations, which involve Centrocolumna gen. nov., Episymploce, Symploce, and Blattella.

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DOI: 10.3897/asp.80.e78173

Authors: Rao-Rao Mo, Ying Wang, Jin-Jun Cao, Guo-Quan Wang, Wei-Hai Li, Dávid Murányi

Abstract: Two new complete mitochondrial genomes (mitogenomes) of the subfamily Chloroperlinae, Haploperla japonica Kohno, 1946 and Sweltsa sp., were sequenced. The two species showed similar gene order, nucleotide composition, and codon usage. The Sweltsa sp. and H. japonica mitogenomes were typical circular DNA molecules, with lengths of 15,893 bp and 16,012 bp, respectively. Standard ATN start and TAN stop codons were present in most PCGs. All tRNA genes exhibited the cloverleaf secondary structure typical for metazoans except the tRNASer(AGN), which lacked the dihydrouridine arm. In both species, the secondary structure of lrRNA contained five structural domains, while the srRNA included three domains. The A+T-rich regions contained different repeat regions in each species. Phylogenetic analyses using Bayesian inference (BI) and maximum likelihood methods (ML) showed identical results. The family Chloroperlidae was sister to the Perlodidae. Our analyses inferred relationships between six of the seven Systellognatha families: (((Chloroperlidae + Perlodidae) + Perlidae) + (Styloperlidae + Pteronarcyidae)) + Peltoperlidae.

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DOI: 10.3897/asp.80.e71943

Authors: Anderson Lepeco, Rodrigo Barbosa Gonçalves

Abstract: Augochlora Smith, with 127 valid species, is the most widespread genus of Augochlorini bees, ranging from Argentina to southern Canada, including the Caribbean islands. The genus is divided into three subgenera, Augochlora s. str., Oxystoglossella Eickwort, and the fossil Electraugochlora Engel. The extant subgenera were traditionally diagnosed by their nesting substrate, social behavior and morphology. However, accumulating evidence suggests that these features are not reliable for their separation, especially with the discovery of an enigmatic species sharing characteristics from both subgenera. Our objective is to provide a phylogenetic hypothesis to evaluate the monophyly of the extant subgenera and to place a new species, Augochlora (Augochlora) intermedia sp. nov. For this purpose, we compiled 110 unordered characters for 40 species of Augochlora plus seven outgroup species and analyzed under parsimony and Bayesian inference. Topologies were very similar under both frameworks, allowing us to consistently characterize a few major lineages. Our results demonstrate that the extant subgenera correspond to monophyletic groups and the new species is sister group to remaining Augochlora s. str. species. Both subgenera are widespread in the Western Hemisphere, with species groups differing in range and distributional patterns. Our interpretation is that Augochlora arose in South America, subsequently colonizing Mesoamerica, the Caribbean and North America several times. Facultative social behavior can be found in both subgenera and in most lineages, indicating that the exclusive solitary behavior found in Augochlora pura is an exception. Based on morphological clues we interpret that the habit of nesting out of the soil arose once in Augochlora s. str.

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DOI: 10.3897/asp.80.e76339

Authors: Álvaro Laborda, Leticia Bidegaray-Batista, Miguel Simó, Antonio Domingos Brescovit, Carolina Beloso, Luis Norberto Piacentini

Abstract: The taxonomy and systematics of the subfamily Allocosinae are poorly known, especially in South America. In the last century, several species have been described in genera from other subfamilies or transferred to them creating great confusion in the knowledge of Allocosinae. In this study we propose the new genus, Abaycosa gen. nov. to contain two species previously described, Orinocosa paraguensis (Gertsch & Wallace 1937) and Pardosa nanica Mello-Leitão 1941. Additionally, we propose two synonyms, Pardosa flammula Mello-Leitão 1945 as a junior synonym of Abaycosa nanica (Mello-Leitão 1941), comb. nov. and Alopecosa rosea Mello-Leitão 1945 as a junior synonym of Abaycosa paraguensis (Gertsch & Wallace 1937), comb. nov. The results of the phylogenetic analysis using molecular characters place Abaycosa in the subfamily Allocosinae, which is also supported by morphological data. Abaycosa can be distinguished from the remaining Allocosinae by the following characters: in males by the presence of only one distal macrosetae and a patch of flat setae on the tip of the cymbium, in females by the ventral position of the vulval chamber and by the short and stout stalk of the spermathecae.

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DOI: 10.3897/asp.80.e77260

Authors: Caleb Califre Martins, Horst Aspöck, Ulrike Aspöck, Atilano Contreras-Ramos

Abstract: The genus Alena Navás, 1916, is considered the most distinct genus of Raphidiidae, because of the uncommon shape of its male genital sclerites and its geographic distribution restricted to the southwestern U.S.A. and western Mexico. Herein, we present a new species of the subgenus Aztekoraphidia U. Aspöck and H. Aspöck, 1970, – Alena (Aztekoraphidia) alanae sp. nov. Based on this discovery we present a detailed morphological study and the first morphological phylogeny of Alena. Our results recover this genus as monophyletic, including the subgenus Aztekoraphidia as sister to a clade composed by the other two monotypic subgenera, Alena s.s. Navás, 1916, and Mexicoraphidia U. Aspöck and H. Aspöck, 1970. We also provide a hypothesis about the biogeographic history of the group, which advocates that species of Alena are strongly associated with central Mexico and their ancestors were probably widely distributed through western North America in the past, of which only a few small groups survived in glacial refuges.

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DOI: 10.3897/asp.80.e69618

Authors: Marcelo Domingos de Santis, Silvio Shigueo Nihei

Abstract: Abstract Dufouriini are a worldwide distributed tachinid tribe comprised of 51 species in 13 genera, made up of parasitoids of adult Coleoptera. The systematic positioning of Dufouriini has been controversial. Currently, it is placed within Dexiinae, but was previously placed in Phasiinae and Voriinae, and has even had the status of subfamily. Delimitation and composition of Dufouriini has also been debated, whether it is a single tribe or divided into two (Dufouriini and Freraeini) or three (Dufouriini, Oestrophasiini and Freraeini) tribes. Herein, we present the first phylogenetic analysis of Dufouriini based on total evidence using morphological data from adult and immature stages. The taxonomic sampling included all genera in Dufouriini (including Oestrophasiini) and also the genus belonging to Freraeini, a historically related tribe. Data matrix comprised 35 species and 22 genera in the ingroup, and 185 characters constructed from eggs, first instar larvae, puparia and adults, including female and male terminalia and spermathecae. The phylogenetic analysis recovered Dexiinae as paraphyletic in relation to Phasiinae, since the clade (Freraeini (Dufouriini + Oestrophasiini)) is more closely related to Phasiinae than Dexiinae. Dufouriini, Oestrophasiini and Freraeini are recovered as separate monophyletic tribes, strongly supported by a number of synapomorphies. Oestrophasiini is revalidated. A new synonymy is proposed: Comyopsis Townsend syn. nov. of Ebenia Macquart. Accordingly, Ebenia fumata (Townsend, 1919) is nomen preoccupatum by Ebenia fumata (Wulp, 1891), thus we change its specific epithet by designation of the new replacement name Ebenia neofumata Santis and Nihei [nomen novum]. The genera Mesnilana and Rhinophoroides are removed from Dufouriini and tentatively placed into Palpostomatini. Finally, Cenosoma stat. rev., previously a subgenus of Oestrophasia, is revalidated as genus.

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DOI: 10.3897/asp.79.e70002

Authors: Leif Moritz, Thomas Wesener

Abstract: Abstract The production of sticky threads from spinnerets is known from various myriapod groups including some representatives of the millipedes (Diplopoda). In Diplopoda the thread-producing glands are mostly seta-like and positioned terminally on the telson, and the secretion product is typically used to build molting chambers or egg sacs. So far, no such secretions or organs have been documented for the subgroup Pentazonia. Here we describe thread-producing glands from the species-poor Glomeridesmida. These putative spinning organs are single circular fields of small pores (spinning fields) positioned on the outer side of the tarsi of all walking legs of mature and juvenile individuals of both sexes. These pores are the openings of cuticular tubuli (conducting canals), which extend from the tarsus to an aggregation of cells, a putative gland, within the femur. In several specimens thin threads were observed to be extruded from the pores. The tarsal spinning fields are present in all 21 investigated Glomeridesmida morphospecies, including Termitodesmidae and Glomeridesmidae from South East Asia, the Indian subcontinent, Oceania, and South and Central America. These organs might constitute an apomorphic character of the Glomeridesmida, as similar organs are absent in other Myriapoda. The function of the extruded threads in Glomeridesmida remains speculative, because observations of living specimens of the group are almost non-existing. We suggest that the secretion might be used for defense, to build molting chambers or to secure tunnels burrowed in the substrate.

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DOI: 10.3897/asp.79.e68203

Authors: Sayali D. Sheth, Hemant V. Ghate, Neelesh Dahanukar, Jiří Hájek

Abstract: Abstract The diving beetle genus Peschetius Guignot, 1942 (Coleoptera: Dytiscidae) in India is reviewed. Integrative taxonomic approach using morphology, multivariate morphometry and genetic analysis of cytochrome oxidase subunit 1 revealed the presence of four species, two of which are described here as new: Peschetius bistroemi sp. nov. from southern Western Ghats (Kerala) differs from all known congeners with distinctly broadened male antennomeres IV and V, shape of the prosternal process and the male genitalia; P. nilssoni sp. nov. from northern Western Ghats, Rajasthan and Madhya Pradesh is similar to the widespread Indian P. toxophorus Guignot, 1942, from which it differs in habitus, elytral colour pattern and the shape of the male genitalia. New records are presented for the remaining Indian species, namely P. quadricostatus (Aubé, 1838) and P. toxophorus. All species are diagnosed, illustrated and a key to their identification is provided.

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DOI: 10.3897/asp.79.e62332

Authors: Marleen R. Greenberg, Joel A. Huey, Volker W. Framenau, Danilo Harms

Abstract: Abstract Mouse spiders (genus Missulena Walckenaer, 1805) are a lineage of trapdoor spiders with males of many species having a brightly coloured red cephalic region, an abdomen that is tinged metallic blue, and the habit of wandering during the day in search of a mate. A total of 17 species of Missulena have been described in Australia to date but most descriptions are based exclusively on males and always small numbers of specimens. Here, we describe three new species of Missulena from the Pilbara and Goldfields regions of Western Australia based on morphology and genetic data: Missulena davidi sp. nov. (male and female), M. iugum sp. nov. (male) and M. manningensis sp. nov. (male). One of them is presently known only from its type locality and another one from a small range based on two specimens but M. davidi sp. nov. has a linear range of almost 300 km and is genetically highly structured. We use genetic data for 75 specimens as a foundation to evaluate morphological variability in this species and note substantial variation in several characters commonly used to identify species such as body size, colouration, rastellum shape and eye distances. This variation does not necessarily relate to phylogeographic structure as inferred from the genetic data, but rather seems to reflect natural variability both within and between localised populations. Overall, our results stress the need to evaluate a large series of specimens for mygalomorph taxonomy and provide an interesting example of intraspecific variability in hard-to-collect species that are usually underrepresented in museum collections.

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DOI: 10.3897/asp.79.e65325

Authors: Lech Karpiński, Wojciech T. Szczepański, Radosław Plewa, Lech Kruszelnicki, Katarzyna Koszela, Jacek Hilszczanski

Abstract: This paper sheds the first light on the phylogeny of the Central Asian genus Turanium Baeckmann, 1922. By applying an integrative taxonomy approach, we revealed and described a new species from Kyrgyzstan—Turanium losi Karpiński, Plewa & Hilszczański sp. nov. Distinguishing characters from closely related Turanium pilosum (Reitter, 1891) are presented and their ecological associations are discussed. The key characters, including the male terminalia, were examined by means of scanning electron microscopy. High-quality stacked photographs of the habitus of the specimens are presented for both species and their geographical distributions are mapped. While the new species shows stable morphological characters that allow its differentiation from T. pilosum and the COI genetic distance between them is approx. 3%, the different species delimitation methods gave discordant results. Although the new species remained unrecognized for so long, it seems that these cerambycids are common in the region and both can be considered potentially invasive as they are apparently highly polyphagous. It has also been documented that they occur sympatrically in Kyrgyzstan. Both the Bayesian and maximum likelihood analyses of COI sequences confirmed the monophyly of the genus Turanium with strong support (PP 1 and BS 90, respectively). Moreover, the recently revealed polyphyly of the tribe Callidiini was supported by our analyses and, consequently, the discussion on the establishment of a new tribe Ropalopini is raised. This study further corroborates the effectiveness of DNA barcoding as a tool in detecting new species and provides some of the first sequences for Central Asian cerambycids, which remain almost completely unknown in terms of molecular studies.

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DOI: 10.3897/asp.79.e68352

Authors: Rolf Georg Beutel, Xiao-Zhu Luo, Margarita I. Yavorskaya, Paweł Jałoszyński

Abstract: The head anatomy of Pselaphus heisei (Pselaphitae) is described and documented. The structural features are evaluated in comparison with findings presented in earlier studies on the subfamily, with a special focus on correlations with predacious habits and the groundplan of Pselaphinae. We found the tentorium, labrum, maxillary palps, shape of head, and a system of dorsal pits and sulci highly variable within the subfamily, reflecting multiple transformations, including many homoplasious changes. The following major characters are identified as groundplan features of Pselaphinae: falciform mandibles; small mola; semiglobular neck; ventrolateral antennal articulation; steep clypeal region; setiform labial palpomere 3; tentorium with nearly vertical main branches and lacking laminatentoria; separation of tentorial bridge from tentorial arms; fusion of dorsal tentorial arms with the head capsule; large brain placed in the posterior third of the head; and a triple cluster of well-developed cephalic glands. The last feature supports a hypothesis that multiple and independent cases of adaptations to myrmecophilous habits observed in various lineages of Pselaphinae were possible by re-programming already existing glands to produce appeasement secretions. The cephalic muscle apparatus of P. heisei is similar to what is found in other staphylinoid groups, with some exceptions, whereas it is strongly modified in the myrmecophile Claviger testaceus. We propose that the unparalleled structural megadiversity in Pselaphinae is primarily linked with life in the upper soil layers combined with specialized carnivorous habits, with small and agile or mechanically protected arthropods as prey. Within the group, various specialized life habits have evolved, including myrmecophily, termitophily, and also life in deep soil or caves, each with unique morphological adaptations.

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DOI: 10.3897/asp.79.e63975

Authors: Oldrich Sychra, Stanislav Kolencik, Ivo Papousek, Branka Bilbija, Ivan Literak

Abstract: Abstract Ten species of the louse genus Myrsidea belonging to the “serini-species-group” have been reviewed. A redescription of Myrsidea quadrifasciata (Piaget, 1880), the earliest described and valid species of this species complex, is given and a neotype for this species is designated. Nine new junior synonymies of M. quadrifasciata are proposed and discussed. The new synonyms and their respective type hosts are: Myrsidea anoxanthi Price and Dalgleish, 2007 from Loxipasser anoxanthus (Gosse, 1847), Myrsidea argentina (Kellogg, 1906) from Spinus magellanicus (Vieillot, 1805), Myrsidea balati Macháček, 1977 from Passer montanus (Linnaeus, 1758), Myrsidea darwini Palma and Price, 2010 from Geospiza fuliginosa Gould, 1837, Myrsidea major (Piaget, 1880) from Plectrophenax nivalis (Linnaeus, 1758), Myrsidea serini (Séguy, 1944) from Serinus serinus (Linnaeus, 1766), Myrsidea queleae Tendeiro, 1964 from Quelea quelea lathami (Smith, A., 1836), Myrsidea textoris Klockenhoff, 1984 from Ploceus cucullatus cucullatus (Müller, 1776), and Myrsidea viduae Tendeiro, 1993 from Vidua macroura (Pallas, 1764). Intraspecific morphometric variability, relative genetic divergence (based on a 379 bp portion of the mitochondrial COI gene and a 347 bp portion of the nuclear EF-1α gene), geographical distribution, and host associations, including 8 new host records for these lice, are discussed. Taking into consideration these parameters we suggest that the only way to deal with these taxa is to follow concept of subspecies with the following taxa and their geographic distributon: Palearctic Region: M. q. quadrifasciata and M. q. serini, Neotropical Region: M. q. anoxanthi, M. q. argentina, M. q. darwini, Paleotropic Region: M. q. queleae, M. q. textoris and M. q. viduae.

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DOI: 10.3897/asp.79.e67022

Authors: Magdalena Maria Rost-Roszkowska, Jitka Vilimová, Karel Tajovský, Vladimír Šustr, Anna Ostróżka, Florentyna Kaszuba

Abstract: Abstract The middle region of the digestive system of millipedes, the midgut, is responsible for all processes connected with digestion, but also takes part in homeostasis maintenance thanks to the ability to activate many mechanisms which neutralize changes occurring at different levels of the animal’s body. Numerous millipede species are treated as bioindicators of the natural environment and they are exposed to different stressors which originate from external environment. To obtain all data on the functioning of midgut of millipedes as the barrier against stressors, it is necessary to have a precise and general description of the midgut epithelium. Members from four millipede orders were selected for the studies: Polydesmus angustus (Polydesmida), Epibolus pulchripes (Spirobolida), Unciger transsilvanicus (Julida) and Glomeris tetrasticha (Glomerida). The structure and ultrastructure of their midgut epithelial cells (the digestive, secretory and regenerative cells) were documented using transmission electron microscopy and histochemical methods. The obtained results have been compared and discussed to previous ones, to present the general and structural organization of the midgut in Diplopoda. Our studies revealed that the ultrastructure of all cells which form the midgut epithelium in millipedes is general for all the species studied up to now and it resembles the cell ultrastructure observed in Chilopoda and Hexapoda, including the digestive, secretory and stem cells.

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DOI: 10.3897/asp.79.e67569

Authors: Horst Bohn, Volker Nehring, Jonathan G. Rodríguez, Klaus-Dieter Klass

Abstract: The genus Attaphila, comprising minute myrmecophilous cockroaches, is revised, including now six previously known (A. aptera, A. bergi, A. flava, A. fungicola, A. schuppi, A. sexdentis) and three new species (A. multisetosa sp. nov. Bohn and Klass, A. paucisetosa sp. nov. Bohn and Klass, A. sinuosocarinata sp. nov. Bohn and Klass). All species are described or redescribed and depicted with their main characteristics; determination keys allow the identification of males and females. Especially the male characters allow a distribution to two species-groups with differing host specificity: bergi-group associated with Acromyrmex (and possibly Amoimyrmex) ants, fungicola-group associated with Atta ants; the former appears paraphyletic, the latter monophyletic. The genus Attaphila is characterised emphasising its unique features: (1) insertion of antennae at the bottom of a wide funnel-shaped deepening; (2) antenna with the possibility of a rectangular bending between scapus and pedicellus (associated with a distal excavation of the scapus) and (3) with an unusual shape and low number of antennomeres; (4) femora of legs with a ventral groove allowing a close spacing of femur and tibia during a strong flexion; (5) a complex and unusual shape of the laterosternal shelf area of the female genitalia (lack of shelf, presence of a pair of complicated tubular invaginations); and (6) lateral parts of abdominal tergite T9 of male ending in a pair of ventromesally directed arms, which contact the lateral margins of the subgenital plate. Functional aspects and the possible biological roles of these features are discussed. Older biological data are summarised and new observations are presented. The position of Attaphila within Blattodea is discussed. Like a recent molecular study, the morphology of the male genitalia places the genus in the Blaberoidea. The molecular result of Attaphila being closest to three particular blattellid genera, however, is conflictual from the morphological perspective.

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DOI: 10.3897/asp.79.e62735

Authors: Carlos Molineri, Lucimar G. Dias, María del Carmen Zúñiga

Abstract: Abstract The family Polymitarcyidae, with a worldwide distribution, includes mayflies with large burrowing nymphs. South America harbors the highest diversity of this family, including the subfamilies Asthenopodinae and Campsurinae. In this work, three new species belonging to the genera Tortopsis and Tortopus (Campsurinae) are described based on adults and nymphs from Colombia: Tortopsis toro sp. nov., Tortopsis andaki sp. nov. and Tortopus coreguaje sp. nov. Additionally, Tortopsis limoncocha is firstly recorded from Colombia. A cladistic analysis of all the species in these genera is presented, using external morphological characters of adults and eggs. Keys to male and female adults of all the species of both genera are presented.

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DOI: 10.3897/asp.79.e62554

Authors: Derek S. Sikes, Logan J. Mullen

Abstract: Abstract The omaliine rove beetle genus Phlaeopterus Motschulsky, 1853 contains 22 species. The genus is distributed across northwestern North America and eastern Asia. These beetles occur primarily along the edges of alpine snowfields and streams, habitats that are particularly sensitive to the impacts of climate change. Two species have not been collected since 1979 and 1984, one of which, Phlaeopterus bakerensis Mullen and Campbell, 2018, is a contender for the largest-bodied species among the over 1,600 species of the subfamily Omaliinae. Here, we present the first phylogeny of the genus, using Bayesian and maximum likelihood analyses based on DNA sequences from the mitochondrial gene COI and morphological data. We tested previous taxonomic hypotheses and most were rejected by all three analyses. Phlaeopterus castaneus Casey, 1893 is non-monophyletic based on COI sequences and may have hybridized with P. loganensis Hatch, 1957. We found support for the monophyly of the genus Phlaeopterus. Our analyses suggest the common ancestor of the genus had small-bodied adults (maximum body size under 5 mm) with ocelli. Within this small-bodied radiation of species, ocelli were lost once and there were two separate evolutionary transitions to large-bodied adults. Although all the large-bodied species are snowfield-associated and only 25% of the small-bodied species are, we did not find statistical support for a relationship between large body size and use of snowfield habitats. These findings represent the first modern phylogenetic reconstruction of species-level relationships within the rove beetle subfamily Omaliinae using both morphological and molecular data.

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DOI: 10.3897/asp.79.e66966

Authors: Stephanie Haddad, Nayeli Gutiérrez, Felipe A. Noguera, Seunggwan Shin, Petr Svacha, Duane D. McKenna

Abstract: Taxonomic placement of the enigmatic monotypic Mexican longhorned beetle genus Vesperoctenus Bates is examined through inclusion in and reanalysis of the dataset of Haddad et al. (2018, Systematic Entomology 43: 68–89). We describe and discuss the phylogenetic significance of the internal structures of a recently collected V. flohri female from the Sierra de la Laguna mountain range in Mexico, the same specimen from which phylogenomic data was generated. Our phylogenomic analyses (469 genes) recovered Vesperoctenus with maximal statistical support within the cerambyciform family Vesperidae, sister to Vesperus Dejean (Vesperinae). Vesperus + Vesperoctenus were recovered sister to Philinae, and collectively form a clade sister to Anoplodermatinae. Thus, we place V. flohri within Vesperidae: Vesperinae: Vesperoctenini based on analyses of large-scale phylogenomic data. Finally, we propose that the conservation status of V. flohri merits assessment.

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DOI: 10.3897/asp.79.e66021

Authors: Vasily V. Grebennikov

Abstract: Abstract The weevil genus Typoderus is for the first time reported west of the Congo basin. Analysis of 2,136 aligned positions from one mitochondrial and two nuclear fragments revealed a moderately supported clade of five new Cameroonian species: T. amphion sp. nov. (Mt. Oku), T. canthus sp. nov. (Mt. Oku), T. clytius sp. nov. (Mt. Cameroon), T. iphitus sp. nov. (Mt. Kupe) and T. telamon sp. nov. (Mt. Kupe). Molecular clock analysis of 20 DNA barcode fragments using a fixed substitution rate estimated divergences within this clade to be during the Middle to Late Miocene (10.5–5.4 million years ago, MYA), which pre-dates the onset of the Pliocene-Pleistocene global climatic fluctuations and corresponding cycles of African forest size fluctuation. Such relatively old dates are unexpected and might reflect four unavoidable shortcomings of the temporal analysis: 1. undersampled ingroup, 2. scarcity of comparative temporal data for other animal clades from the Cameroon Volcanic Line, 3. oversimplification of a fixed-rate molecular clock approach using a single maternally-inherited protein-coding marker and 4. possible overestimation of comparatively old ages when using largely saturated mitochondrial sequences. Two obscure weevil species from the Republic of the Congo are hypothesized to belong to the genus Typoderus: T. distinctus (Hoffmann, 1968) comb. nov. (from Anchonidium subgenus Neoanchonidium) and T. baloghi (Hoffmann, 1968) comb. nov. (from Anchonidium subgenus Subanchonidium). Three genus-group names are newly synonymized under Typoderus: Entypoderus Voss, 1965 syn. nov. (the only non-nominative subgenus of Typoderus), Neoanchonidium Hoffmann, 1968 syn. nov. (subgenus of Anchonidium) and Subanchonidium Hoffmann, 1968 syn. nov. (subgenus of Anchonidium). Habitus images and other supplementary information of all sequenced specimens are available online at dx.doi.org/10.5883/DS-VGDS005 and dx.doi.org/10.5883/DS-VGDS006.

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DOI: 10.3897/asp.79.e66978

Authors: Philip S. Ward, Brendon E. Boudinot

Abstract: Camponotus and Colobopsis are widely distributed and species-rich genera in the ant tribe Camponotini. Molecular phylogenetic studies demonstrate that they are not sister taxa, but several lineages within each genus have converged to a remarkable degree, confounding the taxonomy of these ants. Based on multiple lines of evidence, including worker and male morphology, we demonstrate that: (1) three species of “Camponotus” belonging to the subgenus Myrmotemnus, including its type species, are in fact members of the genus Colobopsis; (2) four species previously assigned to Colobopsis belong to the subgenus Myrmamblys of Camponotus; and (3) three Nearctic taxa recently placed in Colobopsis are members of the genus Camponotus and closely related to Camponotus clarithorax. These taxonomic findings yield the following new or revived combinations: Colobopsis moeschi (comb. nov.), Colobopsis moeschi lygaea (comb. nov.), Colobopsis nutans (comb. nov.), Colobopsis nutans cleliae (comb. nov.), and Colobopsis reichenspergeri (comb. nov.); Camponotus apostemata (comb. nov.), Camponotus aurelianus (comb. rev.), Camponotus cavibregma (comb. nov.), Camponotus horrens (comb. rev.), Camponotus politae (comb. rev.), Camponotus trajanus (comb. rev.), and Camponotus yogi (comb. rev.). A further consequence is the following generic synonymy (senior synonym listed first): Colobopsis = Myrmotemnus syn. nov., and Camponotus = Dolophra syn. rev. At the species level, we argue that Camponotus apostemata and Camponotus cavibregma are junior synonyms (syn. nov.) of Camponotus yogi, and Camponotus quercicola is a junior synonym (syn. nov.) of Ca. laevigatus. Taxonomic comments are also provided on some members of the Camponotus reticulatus group, with Camponotus adustus (stat. nov.) and Ca. leucodiscus (stat. rev.) being recognized as distinct species rather than subspecies of Ca. bellus. A male-based diagnosis of the Camponotini is provided, and differences between the males of Colobopsis and Camponotus are documented and illustrated for the first time. This study reveals new character systems of potential value to the systematics of these ants, including features of the male genitalia, and emphasizes the value of reciprocal illumination between phylogenomics and critical morphological analysis.

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DOI: 10.3897/asp.79.e61499

Authors: Lech Karpiński, Patrick Gorring, Lech Kruszelnicki, Denis G. Kasatkin, Wojciech T. Szczepański

Abstract: This paper discusses ecological adaptation based on a case study of Anoplistes halodendri and Anoplistes kozlovi (Coleoptera: Cerambycidae) that occur in the arid zone of Mongolia. By applying an integrative taxonomy approach, we revealed one of the first documented cases of sympatrically occurring ecotypes in Polyphaga and the second case of ecotypes in the family Cerambycidae. The results of the analysis of the ecological data, molecular analysis of mitochondrial (COI) and nuclear (ArgK and CAD) genes, as well as a detailed morphological examination, which consisted of a study on the male genitalia including the endophallic structures, supported the hypothesis that these two entities, which are commonly considered separate species, represent only ecologically adapted forms that are associated with rocky hills and sandy/gravelly plains, respectively. Therefore, a synonym is restored: Anoplistes halodendri minutus Hammarström, 1892 = Asias kozlovi Semenov and Znojko, 1934, syn. res. The differences in the elytral pattern and shade appear to be adapted to the different substrates in these distinct habitats. A probable scenario assumes that these two forms arose in parapatry, independently in multiple populations, under parallel speciation during the intensification of the aridification across the region in the period during which the Gobi Desert was formed (~ 24 to 2.6 Ma) and they may evolve into separate species in the future. The phylogenetic relationships of some taxa representing the most closely related genera of the tribe Trachyderini were analysed and the questioned species status of Anoplistes jacobsoni was confirmed. Low interspecific differences in the endophallic structures in the genus Anoplistes and between some species of the genus Amarysius indicate that they are evolutionarily relatively young groups. The practical differences between ecotype and subspecies are also discussed.

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